共20篇,发表时间2024年10月-2025年3月(2025年3月7日整理)
| 序号 | 题目翻译 | 原英文题目 | 发表时间 |
|---|---|---|---|
| 1 | 定制骨免疫和止血功能:使用3D打印纳米光催化杀菌支架增强骨再生 | Tailoring osteoimmunity and hemostasis using 3D-Printed nano-photocatalytic bactericidal scaffold for augmented bone regeneration | 2025 |
| 2 | 基于纤维素的光固化手性向列墨水用于直写3D打印 | Cellulose-based photo-curable chiral nematic ink for direct-ink-writing 3D printing | 2025 |
| 3 | 3D生物打印工程化M2巨噬细胞外泌体:免疫调节生物材料促进体内伤口愈合与血管生成 | 3D bioprinting of engineered exosomes secreted from M2-polarized macrophages through immunomodulatory biomaterial promotes in vivo wound healing and angiogenesis | 2025 |
| 4 | 3D打印凝胶电解质在电分析中的应用 | 3D-printed gelled electrolytes for electroanalytical applications | 2025 |
| 5 | 结构拓扑驱动的直接4D水凝胶打印 | Direct 4D printing of hydrogels driven by structural topology | 2025 |
| 6 | 气动挤出生物打印与流式细胞术:分析3D打印A375黑色素瘤细胞化疗效果 | Pneumatic extrusion-based bioprinting and flow cytometry: A method for analysing chemotherapy efficacy in 3D bioprinted A375 melanoma cell cultures | 2025 |
| 7 | 3D打印氮掺杂碳点覆盖的定向丝素蛋白微纤维用于防伪 | 3D printing of aligned silk fibroin microfibers covered with nitrogen-doped carbon dots for anti-counterfeiting | 2025 |
| 8 | 无添加剂3D打印纳米结构羧甲基纤维素气凝胶 | Additive-free 3D-printed nanostructured carboxymethyl cellulose aerogels | 2025 |
| 9 | 生物打印光电子活性心脏组织 | Bioprinted optoelectronically active cardiac tissues | 2025 |
| 10 | 3D打印储库型阴道环用于抗生素递送 | 3D printed reservoir-like vaginal rings for antibiotic delivery | 2025 |
| 11 | 3D生物打印的历史 | The History of 3D Bioprinting | 2025 |
| 12 | 壳聚糖-明胶-羟基磷灰石生物墨水的制备及其在3D生物打印中的潜在应用 | Manufacture of a chitosan-based bioink with gelatin and hydroxyapatite and its potential application in 3D bioprinting | 2025 |
| 13 | 半固态挤出3D打印实现个性化药物:双药载牙龈片提升患者依从性 | Personalized Medicine Through Semisolid-Extrusion Based 3D Printing: Dual-Drug Loaded Gummies for Enhanced Patient Compliance | 2025 |
| 14 | 厚壳血管化支架的3D生物打印及其在组织工程中的应用潜力 | 3D bioprinting of thick core–shell vascularized scaffolds for potential tissue engineering applications | 2025 |
| 15 | 利用3D打印与创新成分开发可持续新型食品 | Utilizing 3D printing to create sustainable novel food products with innovative ingredients | 2025 |
| 16 | 基于骨膜干细胞球体的自生成骨膜促进骨缺损修复 | A self-forming bone membrane generated by periosteum-derived stem cell spheroids enhances the repair of bone defects | 2024 |
| 17 | 3D打印仿生聚合物角膜贴片增强两性霉素B稳定性以治疗真菌感染 | Stability enhancement of Amphotericin B using 3D printed biomimetic polymeric corneal patch to treat fungal infections | 2024 |
| 18 | FRESH 3D打印载唑来膦酸壳聚糖/海藻酸/羟基磷灰石复合温敏水凝胶促进骨再生 | FRESH 3D printing of zoledronic acid-loaded chitosan/alginate/hydroxyapatite composite thermosensitive hydrogel for promoting bone regeneration | 2024 |
| 19 | 3D打印缓释氢氯噻嗪片剂 | 3D printed extended-release hydrochlorothiazide tablets | 2024 |
| 20 | 4D打印超柔性传感器:增强应变、温度与磁场灵敏度 | Ultraflexible Sensor Development via 4D Printing: Enhanced Sensitivity to Strain, Temperature, and Magnetic Fields | 2024 |
| 序号 | 题目翻译 | 原英文题目 | 发表时间 |
|---|---|---|---|
| 1 | 优化生物材料墨水:羧甲基纤维素-Laponite纳米复合水凝胶和牙髓干细胞生物打印的可打印性研究 | Optimizing biomaterial inks: A study on the printability of Carboxymethyl cellulose-Laponite nanocomposite hydrogels and dental pulp stem cells bioprinting | 2024 |
| 2 | 3D打印气凝胶作为通过荧光生物成像监测的治疗诊断植入物 | 3D-printed aerogels as theranostic implants monitored by fluorescence bioimaging | 2024 |
| 3 | 多功能3D可打印凝胶系统用于向肠道递送益生菌 | A multi-functional 3D-printable gel-in-gel system for the delivery of probiotics to the intestine | 2024 |
| 4 | 明胶甲基丙烯酰基基生物墨水粘度对骨细胞的影响 | Effect of viscosity of gelatin methacryloyl-based bioinks on bone cells | 2024 |
| 5 | 最近在神经组织工程中的3D生物打印研究进展 | Recent developments in 3D bioprinting for neural tissue engineering | 2024 |
| 6 | 光动力治疗研究中应用于细胞工程的水凝胶辅助芯片实验室平台增材制造研究概述 | Overview of research on additive manufacturing of hydrogel-assisted lab-on-chip platforms for cell engineering applications in photodynamic therapy research | 2024 |
| 7 | 无添加的石墨烯基墨水用于3D打印功能导电气凝胶 | Additive-free graphene-based inks for 3D printing functional conductive aerogels | 2024 |
| 8 | 使用可调节的细胞外基质基水凝胶系统进行区域特异性半月板损伤的精确修复 | Precision Repair of Zone-Specific Meniscal Injuries Using a Tunable Extracellular Matrix-Based Hydrogel System | 2024 |
| 9 | 3D可打印κ-卡拉胶基颗粒水凝胶 | 3D Printable κ‐Carrageenan‐Based Granular Hydrogels | 2024 |
| 10 | 通过酚酸和纳米壳聚糖的络合作用稳定绿色和食品安全乳液界面 | Interfacial Stabilization of Green and Food-Safe Emulsions Through Complexation of Phenolic Acids and Nanochitins | 2024 |
| 11 | 通过3D打印获得的用于围植入应用的聚ε-己内酯/氧化铝强化氧化锆复合材料的早期生物反应 | Early Biological Response to Poly(ε-Caprolactone)/Alumina-Toughened Zirconia Composites Obtained by 3D Printing for Peri-Implant Application | 2024 |
| 12 | 具有组织样特性的导电水凝胶的工程:3D生物打印和酶促聚合方法 | Engineering Conductive Hydrogels with Tissue‐like Properties: A 3D Bioprinting and Enzymatic Polymerization Approach | 2024 |
| 13 | 3D生物打印在糖尿病足溃疡治疗中的应用:近期发展简要回顾 | The promising approach of 3D bioprinting for diabetic foot ulcer treatment: A concise review of recent developments | 2024 |
| 14 | 磁集成肿瘤血管界面系统模拟促血管生成内皮功能障碍用于芯片药物测试 | Magnetically Integrated Tumor-Vascular Interface System to Mimic Pro-angiogenic Endothelial Dysregulations for On-Chip Drug Testing | 2024 |
| 15 | 单组分醋酸纤维素硫酸盐水凝胶用于直接墨水书写3D打印 | Single-Component Cellulose Acetate Sulfate Hydrogels for Direct Ink Writing 3D Printing | 2024 |
| 16 | 结合3D打印、等离子聚合和生物活性涂层制备蛋壳生物废物/聚己内酯复合支架用于骨再生 | Combination of 3D Printing, Plasma Polymerization, and Bioactive Coatings Towards Fabrication of Eggshell Biowaste/Polycaprolactone Composite Scaffolds for Bone Regeneration | 2024 |
| 17 | 高可加工性颜料状光子晶体墨水的多电解质诱导 | A polyelectrolyte-induced highly processable pigment-like photonic crystal ink | 2024 |
| 18 | 加速血管移植物的开发:脂肪源干细胞和PODS(多肽传递系统,含有组织特异性生长因子)增强的3D生物打印功能性血管 | Accelerating vascular graft development: Adipose-derived stem cells and PODS (Polyhedrin delivery system with tissue-specific growth factors) – Enhanced 3D bioprinting for functional blood vessels | 2024 |
| 19 | 基于短纳米纤维/水凝胶的3D打印阴道膜作为抗HIV微生物制剂药物递送的新系统 | 3D-printed short nanofibers/hydrogel-based vaginal films as a novel system for the delivery of anti-HIV microbicide drugs | 2024 |
| 20 | 含有生物活性线索的3D打印纤维素纳米晶体和明胶支架用于再生医学:推进生物医学应用 | 3D-printed cellulose nanocrystals and gelatin scaffolds with bioactive cues for regenerative medicine: Advancing biomedical applications | 2024 |
| 21 | 含丝素蛋白的生物墨水促进3D生物打印结构中的细胞增殖 | Silk Fibroin-Enriched Bioink Promotes Cell Proliferation in 3D-Bioprinted Constructs | 2024 |
| 22 | 具有高导电性的3D可打印和生物兼容PEDOT:PSS-离子液体胶体用于快速按需制造3D生物电子设备 | 3D printable and biocompatible PEDOT:PSS-ionic liquid colloids with high conductivity for rapid on-demand fabrication of 3D bioelectronics | 2024 |
| 23 | 制作三维肝脏模型的工具箱 | Toolbox for creating three-dimensional liver models | 2024 |
| 24 | 通过链刚性介导的高强度和各向异性3D打印水凝胶 | 3D-Printed Hydrogels with High-Strength and Anisotropy Mediated by Chain Rigidity | 2024 |
| 25 | 甘油介导的藻酸盐水凝胶的3D打印,具有高强度和刚度 | 3D printing of glycerol-mediated alginate hydrogels with high strength and stiffness | 2024 |
| 26 | 3D打印去矿化骨基质基导电支架与电刺激结合用于骨组织工程应用 | 3D-Printed Demineralized Bone Matrix-Based Conductive Scaffolds Combined with Electrical Stimulation for Bone Tissue Engineering Applications | 2024 |
| 27 | 使用表面活性剂自组装技术稳定液-液界面:一种多功能方法 | A Versatile Approach to Stabilize Liquid-Liquid Interfaces using Surfactant Self-Assembly | 2024 |
| 28 | 可持续的蛋白质废料再生方法:基于熵驱动变性 | Entropy-driven Denaturation for Sustainable Regeneration of Protein Waste | 2024 |
| 29 | 电磁按需滴技术作为无定形固体分散生产的创新平台 | Electromagnetic drop-on-demand (DoD) technology as an innovative platform for amorphous solid dispersion production | 2024 |
| 30 | 纳米启用的4D生物打印微组织的神经免疫调节潜力,用于软骨组织工程 | Neuro-Immunomodulatory Potential of Nanoenabled 4D Bioprinted Microtissue for Cartilage Tissue Engineering | 2024 |
| 31 | 含有光热敏纳米材料SiO2@Fe3O4的复合支架的光热性能研究 | Investigation of the Photothermal Performance of the Composite Scaffold Containing Light-Heat-Sensitive Nanomaterial SiO2@Fe3O4 | 2024 |
| 32 | 丝素蛋白增加藻酸盐-明胶水凝胶的弹性,并调节心脏生物墨水中的心肌细胞收缩功能 | Silk fibroin increases the elasticity of alginate-gelatin hydrogels and regulates cardiac cell contractile function in cardiac bioinks | 2024 |
| 33 | 光激活3D打印的鱼状致动器 | Light‐activated 3D printed fish‐like actuator | 2024 |
| 34 | 骨组织工程用3D打印孔梯度水凝胶支架的设计与表征 | Design and characterization of 3D printed pore gradient hydrogel scaffold for bone tissue engineering | 2024 |
| 35 | 通过弹性蛋白-丝状重组蛋白修改3D打印材料的弹性 | Elasticity Modification of Biomaterials Used in 3D Printing with an Elastin–Silk-like Recombinant Protein | 2024 |
| 36 | 微流控人类仿生肝脏模型作为药物引起肝损伤的筛选平台 | Microfluidic human physiomimetic liver model as a screening platform for drug induced liver injury | 2024 |
| 37 | 通过辣根过氧化物酶催化交联3D生物打印甜菜果胶 | 3D Bioprinting of Sugar Beet Pectin through Horseradish Peroxidase-Catalyzed Cross-Linking | 2024 |
| 38 | 粒状水凝胶的局部离子增强 | Localized Ionic Reinforcement of Double Network Granular Hydrogels | 2024 |
| 39 | 基于MXene的3D打印线状应变传感器,具有增强的灵敏度和各向异性 | 3D Printed MXene-Based Wire Strain Sensors with Enhanced Sensitivity and Anisotropy | 2024 |
| 40 | 通过水溶性盐溶液的可逆盐析效应实现可持续的3D打印 | Sustainable 3D printing by reversible salting-out effects with aqueous salt solutions | 2024 |
| 41 | 使用双交联过程的丝素蛋白基墨水进行原位3D打印 | Silk fibroin-based inks for in situ 3D printing using a double crosslinking process | 2024 |
| 42 | 使用dECM基生物墨水和活细胞进行3D生物打印的可灌注兼容血管样通道 | Bioprinting of Perfusable, Biocompatible Vessel-like Channels with dECM-Based Bioinks and Living Cells | 2024 |
| 43 | 可见光固化的完全合成、可调节的聚α-氨基酸基生物墨水 | Fully synthetic, tunable poly(α-amino acids) as the base of bioinks curable by visible light | 2024 |
| 44 | 含有增强的3D打印性和机械性能的氧化石墨烯基生物墨水,用于组织工程应用 | Graphene Oxide (GO)-Based Bioink with Enhanced 3D Printability and Mechanical Properties for Tissue Engineering Applications | 2024 |
| 45 | 用于3D生物打印的嵌合Resilin-弹性蛋白结构蛋白的表征 | Characterization of a Chimeric Resilin-Elastin Structural Protein Dedicated to 3D Bioprinting as a Bioink Component | 2024 |
| 46 | 制备具有细胞粘附特性的海藻酸盐基生物墨水,用于生物制造 | Engineering peptide-modified alginate-based bioinks with cell-adhesive properties for biofabrication | 2024 |
| 47 | 使用K-卡拉胶/魔芋葡甘露聚糖水凝胶的3D打印工程方法 | An engineering approach to the 3D printing of K‐Carrageenan/konjac glucomannan hydrogels | 2024 |
| 48 | 多传感器折纸平台:一种可定制的系统,用于在3D模型中获得时空精确的功能读数 | Multi-Sensor Origami Platform: A Customizable System for Obtaining Spatiotemporally Precise Functional Readouts in 3D Models | 2024 |
| 49 | 光响应脱细胞小肠黏膜下层水凝胶 | Photo‐Responsive Decellularized Small Intestine Submucosa Hydrogels | 2024 |
| 50 | 通过聚合物衍生陶瓷中的纳米结构实现高温稳定的结构颜色 | Achieving High-Temperature Stable Structural Color through Nanostructuring in Polymer-Derived Ceramics | 2024 |
| 51 | 通过调节条件层和表面化学精细调节石墨烯基材料表面的骨传导特性 | The osteoconductive properties of graphene-based material surfaces are finely tuned by the conditioning layer and surface chemistry | 2024 |
| 52 | 3D生物打印水凝胶传感器用于基于pH比色检测的快速唾液诊断 | 3D Bioprinted Hydrogel Sensor towards Rapid Salivary Diagnostics Based on pH Colorimetric Detection | 2024 |
| 53 | 3D打印的持续释放型噻吗洛尔植入物用于青光眼治疗的制造与表征 | Manufacturing and characterisation of 3D-printed sustained-release Timolol implants for glaucoma treatment | 2024 |
| 54 | 液态胶原墨水的三维打印研究 | Investigation of Liquid Collagen Ink for Three-Dimensional Printing | 2024 |
| 55 | 心脏组织的嵌入式3D打印协议,使用巯基-降环烯基胶原 | Protocol for embedded 3D printing of heart tissues using thiol-norbornene collagen | 2024 |
| 56 | 3D生物打印的老年人心梗后心肌组织模型 | 3D bioprinted aged human post-infarct myocardium tissue model | 2024 |
| 57 | 使用定制的生物反应器对3D打印半月板组织进行体外压缩循环 | Compression cycling of 3D-printed meniscal tissues in vitro using a custom bioreactor | 2024 |
| 58 | 从可可废料到可持续生物墨水:提升果胶用于循环经济驱动的组织工程 | From cocoa waste to sustainable bioink: valorising pectin for circular economy-driven tissue engineering | 2024 |
| 59 | 慢工出细活:石墨烯增强的3D支架通过分段近红外治疗实现精准肿瘤学 | Slow and steady wins the race: Fractionated near-infrared treatment empowered by graphene-enhanced 3D scaffolds for precision oncology | 2024 |
| 60 | 通过成分重量和剪切速率调节生物墨水的流变特性,以提高生物打印支架的保真度 | Modulating rheological characteristics of bio-ink with component weight and shear rate for enhanced bioprinted scaffold fidelity | 2024 |
| 61 | 生物聚合物3D打印植入支架作为术后急性疼痛管理的潜在辅助治疗 | Biopolymeric 3D printed implantable scaffolds as a potential adjuvant treatment for acute post-operative pain management | 2024 |
| 62 | 通过无牺牲直接墨水书写3D生物打印灌注血管化器官模型用于药物开发 | Bioprinting of Perfusable Vascularized Organ Models for Drug Development via Sacrificial‐Free Direct Ink Writing | 2024 |
| 63 | 用于组织工程的光交联木瓜子基水凝胶的合成与表征 | Synthesis and Characterizations of Photocrosslinkable Quince Seed-Based Hydrogels for Tissue Engineering | 2024 |
| 64 | 含有加工过的人体关节软骨基质的3D挤出生物墨水的创新制备,用于软骨组织工程 | Fabrication of a Novel 3D Extrusion Bioink Containing Processed Human Articular Cartilage Matrix for Cartilage Tissue Engineering | 2024 |
| 65 | 可生物降解的聚(己内酯富马酸)3D打印支架用于Masquelet技术中的节段性骨缺损修复 | Biodegradable poly(caprolactone fumarate) 3D printed scaffolds for segmental bone defects within the Masquelet technique | 2024 |
| 66 | 木粉和牛皮纸木质素使纳米纤维素基3D打印结构能够自然风干 | Wood Flour and Kraft Lignin Enable Air-Drying of the Nanocellulose-Based 3d-Printed Structures | 2024 |
| 67 | 使用天然丝素蛋白基生物墨水的血液生成3D模型有效支持血小板分化 | Bioprinting Soft 3D Models of Hematopoiesis using Natural Silk Fibroin-Based Bioink Efficiently Supports Platelet Differentiation | 2024 |
| 68 | 具有温度依赖流变响应的3D可打印聚(N-异丙基丙烯酰胺)微凝胶悬浮液 | 3D Printable Poly(N-isopropylacrylamide) Microgel Suspensions with Temperature-Dependent Rheological Responses | 2024 |
| 69 | 解压缩的碳纳米管辅助功能化壳聚糖水凝胶的3D打印,用于应变传感应用 | Unzipped carbon nanotubes assisted 3D printable functionalized chitosan hydrogels for strain sensing applications | 2024 |
| 70 | 通过盐析效应实现具有广泛可调机械性能的水凝胶墨水的3D打印 | Hydrogel Ink for 3D Printing with High and Widely Tunable Mechanical Properties via the Salting‐Out Effect | 2024 |
| 71 | 3D生物打印高度弹性PEG‐PCL‐DA水凝胶,用于软组织制造和生物机械刺激 | 3D Bioprinting Highly Elastic PEG‐PCL‐DA Hydrogel for Soft Tissue Fabrication and Biomechanical Stimulation | 2024 |
| 72 | 3D生物打印的人类皮肤模型再现了与原生组织相似的成熟度和免疫能力,作为皮肤致敏评估的先进平台 | 3D Bioprinted Human Skin Model Recapitulating Native-Like Tissue Maturation and Immunocompetence as an Advanced Platform for Skin Sensitization Assessment | 2024 |
| 73 | 4D打印纳米工程超生物活性水凝胶支架,具有可编程变形,潜在用于分支血管通道的构建 | 4D printed nanoengineered super bioactive hydrogel scaffold with programmable deformation for potential bifurcated vascular channel construction | 2024 |
| 74 | 通过三维打印的小型外泌体来自牙周细胞,增强间充质基质细胞的功能 | 3D-bioprinted small extracellular vesicles from periodontal cells enhance mesenchymal stromal cell function | 2024 |
| 75 | 酒精诱导凝胶化实现海藻酸钠水凝胶的直接三维打印 | Ethanol-induced gelation enables direct three-dimensional printing of sodium alginate hydrogel | 2024 |
| 76 | 向明胶甲基丙烯酰基生物墨水中添加Laponite改善了流变特性和可打印性,用于创建可机械调节的细胞培养基质 | Addition of Laponite to gelatin methacryloyl bioinks improves the rheological properties and printability to create mechanically tailorable cell culture matrices | 2024 |
| 77 | 松果体3D打印支架的内外共诱导,用于骨骼和血管再生 | Internal and external co-induction pineal 3D printed scaffolds for bone and blood vessel regeneration | 2024 |
| 78 | 正常皮肤和皮肤鳞状细胞癌的三维建模:二维培养、类球体和3D生物打印系统的比较研究 | 3D modeling of normal skin and cutaneous squamous cell carcinoma. A comparative study in 2D cultures, spheroids, and 3D bioprinted systems | 2024 |
| 79 | 3D生物打印的光交联GelMA/甲基纤维素水凝胶模拟天然角膜模型,具有增强的体外细胞相容性和持久的角质细胞表型,用于基质再生 | 3D bioprinted photo crosslinkable GelMA/methylcellulose hydrogel mimicking native corneal model with enhanced in vitro cytocompatibility and sustained keratocyte phenotype for stromal regeneration | 2024 |
| 80 | 用于潜在可展开构造的生物兼容磁性纳米复合材料的4D打印 | 4D Printed Biocompatible Magnetic Nanocomposite Toward Deployable Constructs | 2024 |
| 81 | 脂肪源干细胞和PODS(多肽传递系统,含有组织特异性生长因子)增强的3D生物打印功能性血管 | Accelerating Vascular Graft Development: Adipose-Derived Stem Cells and Pods (Polyhedrin Delivery System with Tissue Specific Growth Factors) Enhanced 3d Bioprinting for Functional Blood Vessels | 2024 |
| 82 | 基于生物启发的便捷策略,用于可编程渗透驱动的形态变换弹性体复合材料结构 | Bio-inspired facile strategy for programmable osmosis-driven shape-morphing elastomer composite structures | 2024 |
| 83 | 用于半月板撕裂修复的光聚合自体生长因子负载丝基生物材料墨水 | Photo-Polymerizable Autologous Growth-Factor Loaded Silk-Based Biomaterial-Inks toward 3D Printing-Based Regeneration of Meniscus Tears | 2024 |
| 84 | 通过液压控制的器官芯片阵列调节角膜基质细胞行为 | Regulation of Corneal Stromal Cell Behavior by Modulating Curvature Using a Hydraulically Controlled Organ Chip Array | 2024 |
| 85 | 阻滞聚电解质添加剂调节粘弹性并增强明胶墨水在生理温度下的打印性能 | Block Polyelectrolyte Additives That Modulate the Viscoelasticity and Enhance the Printability of Gelatin Inks at Physiological Temperatures | 2024 |
| 86 | 设计模块化蛋白水凝胶用于生物制造 | Designed modular protein hydrogels for biofabrication | 2024 |
| 87 | 生物活性明胶片作为激光辅助生物打印预血管化支架的新型生物纸,用于骨组织工程 | Bioactive gelatin-sheets as novel biopapers to support prevascularization organized by laser-assisted bioprinting for bone tissue engineering | 2024 |
| 88 | 针对肝癌治疗的定制局部药物递送解决方案:打印一剂治愈 | Printing a cure: A tailored solution for localized drug delivery in liver cancer treatment | 2024 |
| 89 | 锥形束计算机断层扫描在牙周病学中的作用:从牙周缺损的3D模型到3D打印支架 | The Role of Cone Beam Computed Tomography in Periodontology: From 3D Models of Periodontal Defects to 3D-Printed Scaffolds | 2024 |
| 90 | 为制造与疾病化学相关的独立疾病模型开发仿生生物墨水 | Bioinspired Bioinks for the Fabrication of Chemomechanically Relevant Standalone Disease Models of Hepatic Steatosis | 2024 |
| 91 | 使用3D打印半月板进行半月板修复的测试方法 | Methods for Testing Meniscal Repair Using a 3D-Printed Meniscus | 2024 |
| 92 | 在酸性深共晶溶剂系统中,一锅制备物理和化学双交联的纳米纤维素/聚(深共晶溶剂)导电弹性体,用于3D打印信息存储扩展 | One-Pot Preparation of Physical and Chemical Double-Cross-Linked Nanocellulose/Poly(Deep Eutectic Solvent) Conductive Elastomers in Acidic Deep Eutectic Solvent (Des) System for 3d-Printable Information-Storage Expansion | 2024 |
| 93 | 无外源3D生物打印肝脏模型用于肝毒性评估 | Xeno-Free 3D Bioprinted Liver Model for Hepatotoxicity Assessment | 2024 |
| 94 | 芦荟基生物材料墨水用于3D打印创伤敷料构造 | Aloe vera-based biomaterial ink for 3D bioprinting of wound dressing constructs | 2024 |
| 95 | 3D生物打印的自愈水凝胶 | 3D-bioprinting of self-healing hydrogels | 2024 |
| 96 | 具有功能连接性的3D生物打印人类神经组织 | 3D bioprinting of human neural tissues with functional connectivity | 2024 |
| 97 | 用于心脏BioRings 3D生物打印的具有改进电机械性能的光交联生物墨水 | Development of photocrosslinkable bioinks with improved electromechanical properties for 3D bioprinting of cardiac BioRings | 2024 |
| 98 | 具有超分子添加剂驱动适应性的3D可打印活性水凝胶 | 3D Printable Active Hydrogels with Supramolecular Additive-Driven Adaptiveness | 2024 |
| 99 | In-Foam生物打印:一种具有自移除支撑浴的嵌入式生物打印技术 | In‐Foam Bioprinting: An Embedded Bioprinting Technique with Self‐Removable Support Bath | 2024 |
| 100 | 三次点击化学用于明胶基微凝胶的交联、硬化和退火 | Triple click chemistry for crosslinking, stiffening, and annealing of gelatin-based microgels | 2024 |
| 101 | 使用3D打印的PEDOT:PSS复合材料制造的柔性多功能传感器 | Flexible Multifunctional Sensors using 3D-printed PEDOT:PSS Composites | 2024 |
| 102 | 用于优化生物打印参数的水凝胶挤出速度测量 | Hydrogel Extrusion Speed Measurements for the Optimization of Bioprinting Parameters | 2024 |
| 103 | 目前工程半月板组织的进展:3D打印、可注射水凝胶和物理刺激策略的见解 | Current advances in engineering meniscal tissues: insights into 3D printing, injectable hydrogels and physical stimulation based strategies | 2024 |
| 104 | 利用硫醇-降环烯化学的混合明胶-多糖生物墨水优化,使用还原添加剂 | Optimization of hybrid gelatin-polysaccharide bioinks exploiting thiol-norbornene chemistry using a reducing additive | 2024 |
| 105 | 携带抗菌肽负载的抗菌性隐形眼镜样3D打印补丁,用于治疗细菌性角膜炎 | 3D-Printed Inherently Antibacterial Contact Lens-Like Patches Carrying Antimicrobial Peptide Payload for Treating Bacterial Keratitis | 2024 |
| 106 | 使用明胶作为牺牲网络和3D悬浮浴的多材料体积增材制造水凝胶 | Multi-Material Volumetric Additive Manufacturing of Hydrogels using Gelatin as a Sacrificial Network and 3D Suspension Bath | 2024 |
| 107 | 即用型藻酸盐墨水:不同二价阳离子对3D可打印藻酸盐水凝胶理化性能的影响 | Ready-to-Print Alginate Inks: The Effect of Different Divalent Cations on Physico-Chemical Properties of 3d Printable Alginate Hydrogels | 2024 |
| 108 | 源自牙周细胞的3D生物打印小型外泌体增强间充质基质细胞功能 | 3D-bioprinted small extracellular vesicles from periodontal cells enhance mesenchymal stromal cell function | 2024 |
| 109 | 直接墨水书写生物兼容的壳聚糖/非异氰酸酯聚氨酯/纤维素纳米纤维水凝胶用于创伤愈合应用 | Direct ink writing of biocompatible chitosan/non-isocyanate polyurethane/cellulose nanofiber hydrogels for wound-healing applications | 2024 |
| 110 | 完全3D打印的可生物降解、无线和智能生物植入物,带有体素化半导体 | Fully 3D Printed Biodegradable, Wireless, and Smart Bioimplants with Voxelated Semiconductor | 2024 |
| 111 | 在Lactococcus lactis中开发光遗传基因表达系统,使用分裂光激活T7 RNA聚合酶 | Development of an optogenetic gene expression system in Lactococcus lactis using a split photoactivatable T7 RNA polymerase | 2024 |
| 112 | 三层平台,利用静电纺丝纳米纤维和3D打印基于海藻酸钠的水凝胶,用于类风湿性关节炎的局部治疗 | Triple-layered platform utilizing electrospun nanofibers and 3D-printed sodium alginate-based hydrogel for effective topical treatment of rheumatoid arthritis | 2024 |
| 113 | PIEZO1机械传感器在控制正常巨核细胞发育和原发性骨髓纤维化中的新角色 | Newly identified roles for PIEZO1 mechanosensor in controlling normal megakaryocyte development and in primary myelofibrosis | 2024 |
| 114 | 3D生物打印的含有β-磷酸三钙的藻酸盐基生物墨水支架,用于骨再生应用 | 3D-bioprinted alginate-based bioink scaffolds with β-tricalcium phosphate for bone regeneration applications | 2024 |
| 115 | 三维打印箭根淀粉-杰兰支架用于伤口愈合应用 | 3D printed arrowroot starch-gellan scaffolds for wound healing applications | 2024 |
| 116 | 利用生物打印制造基于水凝胶的电双层电容器 | Utilizing bioprinting for hydrogel-based electric double-layer capacitor fabrication | 2024 |
| 117 | 聚己内酯增强的多功能支架,用于生物医学应用:通过氧化石墨烯增添功能 | Multifunctional scaffolds for biomedical applications: Crafting versatile solutions with polycaprolactone enriched by graphene oxide | 2024 |
| 118 | 3D打印导电水凝胶贴片,包含MSC@GO,用于有效的心肌梗塞修复 | 3D Printed Conductive Hydrogel Patch Incorporated with MSC@GO for Efficient Myocardial Infarction Repair | 2024 |
| 119 | 乙醇诱导凝胶化使得海藻酸钠水凝胶的直接三维打印成为可能 | Ethanol-induced gelation enables direct three-dimensional printing of sodium alginate hydrogel | 2024 |
| 120 | 向明胶甲基丙烯酰基生物墨水中添加Laponite改善流变特性和可打印性,以创建可机械调节的细胞培养基质 | Addition of Laponite to gelatin methacryloyl bioinks improves the rheological properties and printability to create mechanically tailorable cell culture matrices | 2024 |
| 121 | 松果体3D打印支架的内外共诱导,用于骨骼和血管再生 | Internal and external co-induction pineal 3D printed scaffolds for bone and blood vessel regeneration | 2024 |
| 122 | 正常皮肤和皮肤鳞状细胞癌的3D建模:2D培养、类球体和3D生物打印系统的比较研究 | 3D modeling of normal skin and cutaneous squamous cell carcinoma. A comparative study in 2D cultures, spheroids, and 3D bioprinted systems | 2024 |
| 序号 | 题目翻译 | 原英文题目 | 发表时间 |
|---|---|---|---|
| 1 | 无定形磷酸钙增强的海藻酸二醛明胶(Ada-Gel)生物墨水用于骨组织支架的生物制造 | Amorphous Calcium Phosphate Reinforced Alginate-Dialdehyde-Gelatin (Ada-Gel) Bioinks for Biofabrication of Bone Tissue Scaffolds | 2023 |
| 2 | 淀粉基生物材料墨水的开发与优化及填充图案对3D打印支架的机械、物理化学和生物性能的影响 | Development and optimization of starch-based biomaterial inks and the effect of infill patterns on the mechanical, physicochemical, and biological properties of 3D printed scaffolds for tissue engineering | 2023 |
| 3 | 通过萜烯和纳米壳聚糖的界面组装形成的结构化乳凝胶 | Structured Emulgels by Interfacial Assembly of Terpenes and Nanochitin | 2023 |
| 4 | 具有双重碳固存功能的光合活性材料 | Dual carbon sequestration with photosynthetic living materials | 2023 |
| 5 | 通过成分重量和剪切速率调节生物墨水的流变特性,以提高生物打印支架的保真度 | Modulating Rheological Characteristics of Bio-Ink with Component Weight and Shear Rate for Enhanced Bioprinted Scaffold Fidelity | 2023 |
| 6 | 碳基纳米薄膜上细胞系依赖的粘附和增殖抑制 | Cell Line-Dependent Adhesion and Inhibition of Proliferation on Carbon-Based Nanofilms | 2023 |
| 7 | 用于骨组织工程的纤维素基3D打印气凝胶 | Cellulose-in-cellulose 3D-printed bioaerogels for bone tissue engineering | 2023 |
| 8 | 超稳定的高内相Pickering乳液:成型机制、可加工性及其在3D打印中的应用 | Ultrastable High Internal Phase Pickering Emulsions: Forming Mechanism, Processability, and Application in 3D Printing | 2023 |
| 9 | 原位可打印性图(IPM):一种用于生物打印的原位可打印性评估新方法 | In-situ Printability Maps (IPM): A new approach for in-situ printability assessment with application to extrusion-based bioprinting | 2023 |
| 10 | 3D打印技术的应用及多学科视角:近期发展与未来趋势 | Applications and multidisciplinary perspective on 3D printing techniques: Recent developments and future trends | 2023 |
| 11 | 用于自供能触摸传感器的功能梯度压电复合纳米发电机 | Functional gradient piezoelectric composite nanogenerator for self-powered touch sensor | 2023 |
| 12 | 3D打印超可拉伸的丝素蛋白基生物兼容水凝胶 | 3D-printed ultra-stretchable silk fibroin-based biocompatible hydrogels | 2023 |
| 13 | 静脉启发的热响应通道水凝胶执行器的共轴4D打印 | Coaxial 4D Printing of Vein‐Inspired Thermoresponsive Channel Hydrogel Actuators | 2023 |
| 14 | 掺入培养基的生物墨水及其对生物打印的影响 | Bio-Ink Doped with Culture Medium and its Effect on Bioprinting | 2023 |
| 15 | 揭示溶剂组成对含有半水硫酸钙的按需喷射3D打印片剂的影响 | Unraveling the Influence of Solvent Composition on Drop-on-Demand Binder Jet 3D Printed Tablets Containing Calcium Sulfate Hemihydrate | 2023 |
| 16 | 生物材料墨水粘度特性的研究及基于路径规划的打印过程优化 | Investigation of Biomaterial Ink Viscosity Properties and Optimization of the Printing Process Based on Pattern Path Planning | 2023 |
| 17 | 用于重度牙周炎牙槽骨再生的3D打印抗菌支架 | 3D-Printed Antibacterial Scaffolds for the Regeneration of Alveolar Bone in Severe Periodontitis | 2023 |
| 18 | 使用复合脂质体墨水进行局部治疗腹膜疾病的3D打印可注射微珠 | 3D printing injectable microbeads using a composite liposomal ink for local treatment of peritoneal diseases | 2023 |
| 19 | 用于骨再生应用的聚(己内酯富马酸)挤出3D打印及其表征 | Extrusion 3D-printing and characterization of poly(caprolactone fumarate) for bone regeneration applications | 2023 |
| 20 | 自组装仿生纳米级胶原样肽基支架的开发及其在组织工程中的应用:计算机模拟与实验室研究 | Development of Self-Assembled Biomimetic Nanoscale Collagen-like Peptide-Based Scaffolds for Tissue Engineering: An In Silico and Laboratory Study | 2023 |
| 21 | 化学调节动态网络和超分子组装以实现组织工程的合成细胞外基质 | Chemically tuning dynamic networks and supramolecular assemblies to enable synthetic extracellular matrices for tissue engineering | 2023 |
| 22 | 通过因子设计实验法表征生物打印工艺参数以获得目标支架孔隙率 | Factorial Design of Experiment Method to Characterize Bioprinting Process Parameters to Obtain the Targeted Scaffold Porosity | 2023 |
| 23 | 共组装活性材料作为体外肺上皮感染模型 | Co-assembling living material as an in vitro lung epithelial infection model | 2023 |
| 24 | 茶碱负载的甲基纤维素气凝胶支架用于高级骨组织工程 | Vancomycin-loaded methylcellulose aerogel scaffolds for advanced bone tissue engineering | 2023 |
| 25 | 一种基于雾化交联技术的共轴生物打印中空水凝胶纤维的方法 | A mist-based crosslinking technique for coaxial bioprinting of hollow hydrogel fibers | 2023 |
| 26 | 将3D打印颊膜与纳米结构脂质载体结合,用于个性化的CBD递送 | Combining the potential of 3D printed buccal films and nanostructured lipid carriers for personalised cannabidiol delivery | 2023 |
| 27 | 通过光掩模和直接墨水书写将羟丙基纤维素组装成螺旋液晶复合材料并进行图案化 | Coassembling Hydroxypropyl Cellulose into a Chiral Nematic Composite and Patternization with a Photomask and Direct Ink Writing | 2023 |
| 28 | 人脂肪组织来源的微血管片段的3D生物打印真皮促进伤口愈合 | Bioprinted dermis with human adipose tissue-derived microvascular fragments promotes wound healing | 2023 |
| 29 | 用于3D生物打印支架微结构评估的微计算机断层扫描技术 | Microcomputed Tomography for the Microstructure Evaluation of 3D Bioprinted Scaffolds | 2023 |
| 30 | 一种人牙齿芯片模型显示牙本质表面诱导的长距离成骨作用 | A Human Tooth-On-Chip Model Shows Long-Range Osteoinduction from the Dentine Surface | 2023 |
| 31 | 精细调节动态交联以增强透明质酸水凝胶的3D生物打印性能 | Fine‐tuning Dynamic Cross–linking for Enhanced 3D Bioprinting of Hyaluronic Acid Hydrogels | 2023 |
| 32 | 系统性方法改善甲基纤维素基生物墨水的可打印性和细胞活力 | A systematic approach to improve printability and cell viability of methylcellulose-based bioinks | 2023 |
| 33 | 一种可注射原位交联水凝胶用于自体脂肪移植 | Injectable In Situ Crosslinking Hydrogel for Autologous Fat Grafting | 2023 |
| 34 | 通过微纳米图案增强人类神经干细胞分化及软光刻和3D打印神经导管的制造 | Micro/nano-patterns for enhancing differentiation of human neural stem cells and fabrication of nerve conduits via soft lithography and 3D printing | 2023 |
| 35 | 胶原蛋白的瞬时组装用于支架、组织工程和生物打印 | Instant Assembly of Collagen for Scaffolding, Tissue Engineering, and Bioprinting | 2023 |
| 36 | PVA/明胶/卡拉胶墨水的配方和评价,用于3D打印及组织工程心脏瓣膜的开发 | Formulation and Evaluation of PVA/Gelatin/Carrageenan Inks for 3D Printing and Development of Tissue‐Engineered Heart Valves | 2023 |
| 37 | CDK4/6抑制剂Lerociclib是治疗儿科肉瘤的潜在治疗策略 | CDK4/6 Inhibition With Lerociclib is a Potential Therapeutic Strategy for the Treatment of Pediatric Sarcomas | 2023 |
| 38 | 聚合物组织支架的物理差异对细胞衰老程序的敏感性 | Cellular Senescence Program is Sensitive to Physical Differences in Polymeric Tissue Scaffolds | 2023 |
| 39 | 用于肥胖患者的靶向递送辣椒素负载可注射植入物的3D打印 | 3D-Printed Capsaicin-Loaded Injectable Implants for Targeted Delivery in Obese Patients | 2023 |
| 40 | 通过化学回收工艺获得的完全可回收环氧基体再加工热塑性塑料的可打印性:一种上规模再利用策略 | Printability of a Recycled Thermoplastic Obtained from a Chemical Recycling Process of a Fully‐Recyclable Epoxy Matrix: An Upscaling Re‐Use Strategy | 2023 |
| 41 | 血小板浓缩物补充的海藻酸盐-明胶水凝胶可作为支架打印的生物墨水 | Alginate-gelatin hydrogel supplemented with platelet concentrates can be used as bioinks for scaffold printing | 2023 |
| 42 | 金属增强的双网络颗粒水凝胶的4D打印 | 4D printing of Metal-Reinforced double network granular hydrogels | 2023 |
| 43 | 含有四苯乙烷基团的聚乳酸基网络,用于3D打印可修复和可再加工的结构 | Polylactide-based networks containing dynamic tetraphenylethane groups for 3D printed repairable and reprocessable constructs | 2023 |
| 44 | 使用直接粉末挤出3D打印技术制备核壳控释片 | Preparation of core-shell controlled release tablets using direct powder extrusion 3D printing techniques | 2023 |
| 45 | 通过溶胶-凝胶反应和温和条件开发纯硅墨水用于3D打印 | Developing a pure silica ink for 3D printing through sol-gel reaction and mild conditions | 2023 |
| 46 | 全球首个通过3D生物打印建立的长期结直肠癌模型,用于溶瘤病毒筛选机制 | World's First Long-Term Colorectal Cancer Model by 3D Bioprinting as a Mechanism for Screening Oncolytic Viruses | 2023 |
| 47 | 具有抗污和导电性能的纳米复合涂层用于电化学传感器的开发 | Micrometer-thick, porous, nanocomposite coating for electrochemical sensors with exceptional antifouling and electroconducting properties | 2023 |
| 48 | 水凝胶用于生物墨水的开发 | Hydrogels for development of bioinks | 2023 |
| 49 | 通过生物墨水凝胶化和交替挤出的支撑材料进行辣根过氧化物酶介导的生物打印 | Horseradish Peroxidase-Mediated Bioprinting via Bioink Gelation by Alternately Extruded Support Material | 2023 |
| 50 | 利用3D生物打印和光子计数计算机断层扫描实现多功能组织工程结构的无创定量跟踪 | Leveraging 3D Bioprinting and Photon-Counting Computed Tomography to Enable Noninvasive Quantitative Tracking of Multifunctional Tissue Engineered Constructs | 2023 |
| 51 | 用于挤出多种水凝胶的内部喷嘴系统的设计和制造 | Design and Fabrication of In-house Nozzle System to Extrude Multi-Hydrogels for 3D Bioprinting Process | 2023 |
| 52 | 纤维蛋白原基生物墨水用于皮肤等效物3D生物打印 | Fibrinogen-Based Bioink for Application in Skin Equivalent 3D Bioprinting | 2023 |
| 53 | 用于钠聚丙烯酸超吸水聚合物的材料挤出 | Material extrusion of sodium polyacrylate superabsorbent polymer | 2023 |
| 54 | 可调高性能混合锌电池的多功能3D电极 | Multifunctional 3D electrodes for tunable high-performance hybrid zinc batteries | 2023 |
| 55 | 通过高通量拆解纤维素纳米带和胶凝态Pickering乳液的胶体稳定性 | High throughput disassembly of cellulose nanoribbons and colloidal stabilization of gel-like Pickering emulsions | 2023 |
| 56 | 3D打印支架,结合2D异质纳米结构和免疫调节细胞因子,提供促愈合微环境,增强骨再生 | 3D-printed scaffolds with 2D hetero-nanostructures and immunomodulatory cytokines provide pro-healing microenvironment for enhanced bone regeneration | 2023 |
| 57 | 负载约束力的工程化真皮促进通过增强血管化和上皮化的全厚度伤口愈合 | Engineered Dermis Loaded with Confining Forces Promotes Full-thickness Wound Healing by Enhancing Vascularisation and Epithelialisation | 2023 |
| 58 | 使用新型挤出3D打印技术SMART制备脂质-质粒DNA颗粒的概念验证 | A Proof-of-Concept Preparation of Lipid-Plasmid DNA Particles Using Novel Extrusion Based 3D Printing Technology, SMART | 2023 |
| 59 | 微管嵌入水凝胶生物打印,用于组织工程支架的血管化 | Microtube embedded hydrogel bioprinting for vascularization of tissue-engineered scaffolds | 2023 |
| 60 | 通过DLP和DIW增材制造技术制造的多材料本质导电聚合物器件 | Flexible and multi-material intrinsically conductive polymer devices fabricated via DLP and DIW additive manufacturing techniques | 2023 |
| 61 | 用于具有空间和时间分辨率的细胞刺激的光机械驱动水凝胶平台 | Optomechanically Actuated Hydrogel Platform for Cell Stimulation with Spatial and Temporal Resolution | 2023 |
| 62 | 促进肺癌细胞生长的3D生物打印水凝胶墨水,在芯片实验平台中培养 | 3D bio-printed hydrogel inks promoting lung cancer cell growth in a lab-on-chip culturing platform | 2023 |
| 63 | 水凝胶微粒预交联提高了海藻酸盐基墨水的可打印性 | Pre‐Crosslinking with Hydrogel Microparticles Enhances the Printability of Alginate‐Based Inks | 2023 |
| 64 | 无泵平台支持3D打印管状组织的长期循环灌流 | Pump-Less Platform Enables Long-Term Recirculating Perfusion of 3D Printed Tubular Tissues | 2023 |
| 65 | 近红外控制释放基于石墨烯的生物打印微珠中的间充质干细胞分泌物,用于神经再生 | Near-infrared controlled release of mesenchymal stem cells secretome from bioprinted graphene-based microbeads for nerve regeneration | 2023 |
| 66 | 包含可释放因子的微粒的3D生物打印骨骼肌组织构建物促进成熟 | Enhanced Maturation of 3D Bioprinted Skeletal Muscle Tissue Constructs Encapsulating Soluble Factor-Releasing Microparticles | 2023 |
| 67 | 肿瘤细胞球体中的光极端传输 | Extreme transport of light in spheroids of tumor cells | 2023 |
| 68 | 声场辅助喷墨打印石墨增强的聚二甲基硅氧烷复合材料的见解 | Insights into the acoustic field-assisted inkjet printing of graphene-reinforced polydimethylsiloxane composites | 2023 |
| 69 | 3D打印聚乙二醇或静电纺聚苯乙烯微管嵌入的海藻酸钠和羧甲基纤维素水凝胶 | 3D printing of poly(ethylene oxide) or electrospun polystyrene microtube embedded sodium alginate and carboxymethyl cellulose hydrogel | 2023 |
| 70 | 模块化硫醇基海藻酸盐基生物墨水的多模式动态交联 | Multimodal and dynamic cross-linking of modular thiolated alginate-based bioinks | 2023 |
| 71 | 模块化硫醇基海藻酸盐基生物墨水的多模式动态交联 | Multimodal and dynamic cross-linking of modular thiolated alginate-based bioinks | 2023 |
| 72 | 水凝胶与聚二甲基硅氧烷的稳定粘附可实现3D生物打印平滑肌结构的循环机械刺激 | Stable hydrogel adhesion to polydimethylsiloxane enables cyclic mechanical stimulation of 3D-bioprinted smooth muscle constructs | 2023 |
| 73 | 基于3D拼图启发的组织工程大规模复杂器官结构的构建 | 3D puzzle-inspired construction of large and complex organ structures for tissue engineering | 2023 |
| 74 | 纤维注入凝胶支架引导心肌细胞在3D打印的心室中排列 | Fibre-infused gel scaffolds guide cardiomyocyte alignment in 3D-printed ventricles | 2023 |
| 75 | 通过周期性拉伸刺激,3D生物打印含软骨细胞的去细胞外基质明胶甲基丙烯酸酯支架用于软骨再生 | 3D-biofabricated chondrocyte-laden decellularized extracellular matrix-contained gelatin methacrylate auxetic scaffolds under cyclic tensile stimulation for cartilage regeneration | 2023 |
| 76 | 通过液液相分离工程化微毛细管网络水凝胶,用于干细胞移植 | Injectable microcapillary network hydrogels engineered by liquid-liquid phase separation for stem cell transplantation | 2023 |
| 77 | 具有抗生物污染特性的粘蛋白基生物墨水用于3D打印 | A Mucin-Based Bio-Ink for 3D Printing of Objects with Anti-Biofouling Properties | 2023 |
| 78 | 半三维生物打印神经心脏系统,用于心脏自主神经系统模型的组织工程 | A Semi-Three-Dimensional Bioprinted Neurocardiac System for Tissue Engineering of a Cardiac Autonomic Nervous System Model | 2023 |
| 79 | 含胰岛的3D生物打印仿生支架作为1型糖尿病新疗法:在小鼠模型上进行的临床前研究结果分析 | Bioprinted 3D Bionic Scaffolds with Pancreatic Islets as a New Therapy for Type 1 Diabetes-Analysis of the Results of Preclinical Studies on a Mouse Model | 2023 |
| 80 | 胶原蛋白及其他:从多种组织来源的人类细胞外基质特性进行全面比较,用于再生医学应用 | Collagen and Beyond: A Comprehensive Comparison of Human ECM Properties Derived from Various Tissue Sources for Regenerative Medicine Applications | 2023 |
| 81 | 通过仿生纳米颗粒增强3D生物打印结构:调节打印性能和细胞行为,用于骨组织模型 | Incorporation/Enrichment of 3D Bioprinted Constructs by Biomimetic Nanoparticles: Tuning Printability and Cell Behavior in Bone Models | 2023 |
| 82 | 纳米颗粒与表面活性剂的协同稳定乳胶使3D打印脂质丰富的固体口服剂型成为可能 | Synergistic stabilization of emulsion gel by nanoparticles and surfactant enables 3D printing of lipid-rich solid oral dosage forms | 2023 |
| 83 | 直接墨水书写纳米纤维素与PEDOT:PSS,用于可弯曲的电子图案和超级电容器纸 | Direct Ink Writing of Nanocellulose and PEDOT:PSS for Flexible Electronic Patterned and Supercapacitor Papers | 2023 |
| 84 | 3D打印:儿科药物的替代策略 | 3D printing - an alternative strategy for pediatric medicines | 2023 |
| 85 | 在批处理反应器中在载体上形成生物膜,作为减少UASB反应器启动时间的方法 | Formation of biofilm on carriers in batch reactors as a method for reducing start-up time of UASB reactors | 2023 |
| 86 | 通过3D打印进行药物递送和测试 | Drug delivery and testing via 3D printing | 2023 |
| 87 | 基于二氧化钛的光学传感器用于检测牛奶掺假 | Titanium dioxide-based optical sensors for detecting milk adulteration | 2023 |
| 88 | 无泄漏的多孔纤维素基相变冷冻凝胶用于隔音和保温 | Leakage-free porous cellulose-based phase change cryogels for sound and thermal insulation | 2023 |
| 89 | 高级双鸟苷和鸟苷5'-单磷酸盐细胞负载水凝胶,用于通过3D生物打印进行软组织重建 | Advanced Binary Guanosine and Guanosine 5'-Monophosphate Cell-Laden Hydrogels for Soft Tissue Reconstruction by 3D Bioprinting | 2023 |
| 90 | 通过苯-1,3,5-三羧酰胺超分子聚合物的原位共价增强,使仿生、坚韧和纤维状水凝胶及生物墨水成为可能 | In Situ Covalent Reinforcement of a Benzene-1,3,5-Tricarboxamide Supramolecular Polymer Enables Biomimetic, Tough, and Fibrous Hydrogels and Bioinks | 2023 |
| 91 | 3D生物打印肿瘤微环境中的蛋白水解重塑 | Proteolytic Remodeling of 3D Bioprinted Tumor Microenvironments | 2023 |
| 92 | 明胶甲基丙烯酰基和Laponite生物墨水用于3D生物打印的器官型肿瘤模型 | Gelatin methacryloyl and laponite bioink for 3D bioprinted organotypic tumor modeling | 2023 |
| 93 | 粘附性3D打印阴道药卵用于治疗子宫内膜异位症和纤维性子宫疾病 | Mucoadhesive 3D printed vaginal ovules to treat endometriosis and fibrotic uterine diseases | 2023 |
| 94 | 具有可调生物医学应用的高分辨率与高保真度3D打印Laponite与海藻酸盐水凝胶 | High resolution and fidelity 3D printing of Laponite and alginate ink hydrogels for tunable biomedical applications | 2023 |
| 95 | 利用3D打印颊膜与纳米结构脂质载体(NLCs)的协同潜力进行个性化CBD递送 | Harnessing the Synergistic Potential of 3D Printed Buccal Films and Nanostructured Lipid Carriers (NLCs) For Personalised Cannabidiol Delivery | 2023 |
| 96 | 基于铝硅酸盐材料的创新3D打印生物载体 | Novel 3D Printed Biocarriers from Aluminosilicate Materials | 2023 |
| 97 | 赋予3D打印PEDOT:PSS高导电性 | Imparting High Conductivity to 3D Printed PEDOT:PSS | 2023 |
| 98 | 甲基丙烯酰基壳聚糖-三酸氨基酸基水凝胶的可注射超分子结构,具有3D打印潜力,用于组织工程应用 | A Supramolecular Injectable Methacryloyl Chitosan-Tricine-Based Hydrogel with 3D Printing Potential for Tissue Engineering Applications | 2023 |
| 99 | 基于功能化混合水凝胶生物墨水的挤出式3D生物打印组织工程支架 | Extrusion-Based 3D Bioprinting of Adhesive Tissue Engineering Scaffolds Using Hybrid Functionalized Hydrogel Bioinks | 2023 |
| 100 | 通过I型光引发RAFT聚合实现的“活性”聚合物水凝胶直接墨水书写3D打印 | Direct-ink-write 3D printing of “living” polymer hydrogels via type I photoinitiated RAFT polymerization | 2023 |
| 101 | 变形速率自适应导电聚合物和复合材料 | Deformation Rate-Adaptive Conducting Polymers and Composites | 2023 |
| 102 | 基于海洋胶原蛋白的生物墨水用于3D生物打印双层皮肤模型 | Marine Collagen-Based Bioink for 3D Bioprinting of a Bilayered Skin Model | 2023 |
| 103 | 用于评估生物墨水挤出式生物打印精度的方法概述 | Overview of methods for evaluating accuracy of bioink extrusion bioprinting | 2023 |
| 104 | 通过多材料3D打印实现三维可扩展结构电子学 | Three-Dimensionally Printed Expandable Structural Electronics Via Multi-Material Printing Room-Temperature-Vulcanizing (RTV) Silicone/Silver Flake Composite and RTV | 2023 |
| 105 | 阳光驱动的自激振荡器用于可持续自主软机器人 | Sunlight-powered self-excited oscillators for sustainable autonomous soft robotics | 2023 |
| 106 | 纳米纤维素的物理化学性质对水悬浮液流变性的影响及其在多个领域的应用:综述 | Impact of physico‐chemical properties of nanocellulose on rheology of aqueous suspensions and its utility in multiple fields: A review | 2023 |
| 107 | 通过模块化的全新支架设计,创建细胞特异性超稳定的白细胞介素-4模拟物 | Design of cell-type-specific hyperstable IL-4 mimetics via modular de novo scaffolds | 2023 |
| 108 | 光交联胶原水凝胶中的萤黄素光毒性 | Bacterial phototoxicity of lumichrome photocrosslinked collagen hydrogels | 2023 |
| 109 | 可打印的多孔3D水凝胶 | Porous 3D Printable Hydrogels | 2023 |
| 110 | 一种多相胶原基材料的挤出3D打印:通过优化策略获得高形状保真度的仿生支架 | Extrusion 3D printing of a multiphase collagen‐based material: An optimized strategy to obtain biomimetic scaffolds with high shape fidelity | 2023 |
| 111 | 使用3D生物打印球形液滴系统演示阿霉素的心脏毒性及筛选 | Demonstration of doxorubicin's cardiotoxicity and screening using a 3D bioprinted spheroidal droplet-based system | 2023 |
| 112 | 乳腺癌肿瘤生长模型的3D打印 | 3D печать модели опухолевого роста РМЖ | 2023 |
| 113 | 可自愈和自粘的3D打印离子电子水凝胶,用于可穿戴健康设备 | 3D Printable Self-Adhesive and Self-Healing Ionotronic Hydrogels for Wearable Healthcare Devices | 2023 |
| 114 | 可生物降解绿色复合材料在生物医学中的应用 | Biomedical applications of bio-degradable green composites | 2023 |
| 115 | 用于挤出生物打印的多糖混合墨水的动态可打印性窗口模型 | Modeling a Dynamic Printability Window on Polysaccharide Blend Inks for Extrusion Bioprinting | 2023 |
| 116 | 含铜的磷酸钙多功能3D打印支架,用于骨再生 | Multifunctional Three-Dimensional Printed Copper Loaded Calcium Phosphate Scaffolds for Bone Regeneration | 2023 |
| 117 | 基于红外成像的新型原位挤出式生物打印监测解决方案 | A New Solution for In-Situ Monitoring of Extrusion-Based Bioprinting Via Infrared Imaging | 2023 |
| 118 | 电化学合成的石墨/氧化TEMPO的纤维素纳米纤维水凝胶:用于3D打印的高导电绿色墨水,应用于电磁屏蔽气凝胶 | Electrochemically Synthesized Graphene/Tempo-Oxidized Cellulose Nanofibrils Hydrogels: Highly Conductive Green Inks for 3D Printing of Robust Structured Emi Shielding Aerogels | 2023 |
| 119 | 使用离子微凝胶打印的坚韧瞬态离子交界点 | Tough Transient Ionic Junctions Printed with Ionic Microgels | 2023 |
| 120 | 聚多巴胺增强3D打印鸟嘌呤-硼酸水凝胶的细胞分化和抗菌性能,用于功能性组织再生 | Polydopamine Incorporation Enhances Cell Differentiation and Antibacterial Properties of 3D-Printed Guanosine-Borate Hydrogels for Functional Tissue Regeneration | 2023 |
| 121 | 3D打印活性结构生物复合材料 | 3D printing of living structural biocomposites | 2023 |
| 122 | 3D生物打印含心肌球体的海藻酸盐-明胶水凝胶贴片,恢复小鼠心肌梗死模型的心脏功能 | 3D bioprinted alginate-gelatin hydrogel patches containing cardiac spheroids recover heart function in a mouse model of myocardial infarction | 2023 |
| 123 | 通过双交联明胶甲基丙烯酸酯和丝素蛋白(SilMA)进行生物打印的皮肤贴片:加速皮肤愈合的研究 | Bioprinting a skin patch with dual-crosslinked gelatin (GelMA) and silk fibroin (SilMA): An approach to accelerating cutaneous wound healing | 2023 |
| 124 | 二氧化碳吸收引发NaOH(aq)中纤维素凝胶化:停留时间和浓度对生物材料开发的影响 | Cellulose gelation in NaOH(aq) by CO2 absorption: Effects of holding time and concentration on biomaterial development | 2023 |
| 125 | 医学中3D打印的介绍 | Introduction to three-dimensional printing in medicine | 2023 |
| 126 | 通过表面增强拉曼光谱和多模式质谱定量纳米颗粒浓度的新模型 | New Model for Quantifying the Nanoparticle Concentration Using SERS Supported by Multimodal Mass Spectrometry | 2023 |
| 127 | 达沙替尼对2D和3D肿瘤细胞培养的比较分析 | Comparative Analysis of Dasatinib Effect between 2D and 3D Tumor Cell Cultures | 2023 |
| 128 | 可灌注的生物混合设计,用于生物打印的骨骼肌组织 | Perfusable biohybrid designs for bioprinted skeletal muscle tissue | 2023 |
| 129 | 电刺激下的3D生物打印明胶-聚吡咯水凝胶,通过半IPN网络,诱导成骨作用 | Electrically stimulated 3D bioprinting of gelatin-polypyrrole hydrogel with dynamic semi-IPN network induces osteogenesis via collective signaling and immunopolarization | 2023 |
| 130 | 透明质酸和多壁碳纳米管作为生物墨水添加剂,用于软骨组织工程 | Hyaluronic acid and multiwalled carbon nanotubes as bioink additives for cartilage tissue engineering | 2023 |
| 131 | 卡马西平口服崩解3D打印微型片剂的配方与表征,用于儿科使用 | Formulation and Characterisation of Carbamazepine Orodispersible 3D-Printed Mini-Tablets for Paediatric Use | 2023 |
| 132 | 使用短纤维调节3D生物打印水凝胶的剪切稀化因子 | Tuning Shear Thinning Factors of 3D Bio-Printable Hydrogels Using Short Fiber | 2023 |
| 133 | 一种智能高效的路径导向3D生物打印管状支架工作流程 | An Intelligent and Efficient Workflow for Path-Oriented 3D Bioprinting of Tubular Scaffolds | 2023 |
| 134 | 离散主动脉瓣下狭窄的新型体外共培养系统的开发 | Development of a Novel In Vitro Co-Culture System for Discrete Subaortic Stenosis | 2023 |
| 135 | 通过AlCl3/ZnCl2水溶液系统作为溶剂和催化剂制备的可压缩、抗冻和离子导电纤维素/聚丙烯酸复合水凝胶 | Compressible, anti-freezing, and ionic conductive cellulose/polyacrylic acid composite hydrogel prepared via AlCl3/ZnCl2 aqueous system as solvent and catalyst | 2023 |
| 136 | 可编程的液晶弹性体的4D打印,具有协同的光致变色和光致动 | 4d printing of Reprogrammable Liquid Crystal Elastomers with Synergistic Photochromism And Photo‐Actuation | 2023 |
| 137 | 医疗领域中4D打印的吸引力:揭示设计因素和应用的科学技术进展 | The attractiveness of 4D printing in the medical field: Revealing scientific and technological advances in design factors and applications | 2023 |
| 138 | 用于3D打印细菌复合材料的定制多肽星形共聚物 | Tailored Polypeptide Star Copolymers for 3D Printing of Bacterial Composites Via Direct Ink Writing | 2023 |
| 139 | 多材料增材制造:设计、性能、应用、挑战及3D打印材料和细胞超材料的系统综述 | Multi-material additive manufacturing: A systematic review of design, properties, applications, challenges, and 3D Printing of materials and cellular metamaterials | 2023 |
| 140 | 含有施旺细胞的胶原蛋白/海藻酸盐神经引导管,通过自由形态可逆嵌入增材制造,调节神经再生 | Additive manufacturing of Schwann cell-laden collagen/alginate nerve guidance conduits by freeform reversible embedding regulate neurogenesis via exosomes secretion towards peripheral nerve regeneration | 2023 |
| 序号 | 题目翻译 | 原英文题目 | 发表时间 |
|---|---|---|---|
| 1 | 纳米尺度生物活性玻璃作为无机填料在藻酸盐水凝胶中用于药物输送和生物制造的优势 | Advantages of nanoscale bioactive glass as inorganic filler in alginate hydrogels for drug delivery and biofabrication | 2022 |
| 2 | 纳米纤维素草酸盐制备的多维生物纳米材料 | Fabrication of multidimensional bio-nanomaterials from nanocellulose oxalate | 2022 |
| 3 | 用于皮下植入设备的电子设备包封材料GelMa水凝胶和RTV 9161弹性体的生物相容性分析 | Biocompatibility Analysis of GelMa Hydrogel and Silastic RTV 9161 Elastomer for Encapsulation of Electronic Devices for Subdermal Implantable Devices | 2022 |
| 4 | 通过半固体挤出3D打印制备易吞咽片剂的钙藻酸盐水凝胶的应用 | Application of Calcium Alginate Hydrogels in Semi‐solid Extrusion 3D Printing for the Production of Easy‐to‐Swallow Tablets | 2022 |
| 5 | 颗粒水凝胶力学性能由接触变形决定的构件属性 | Building block properties govern granular hydrogel mechanics through contact deformations | 2022 |
| 6 | 具有生长因子保持功能的热响应纳米复合生物墨水及其在骨再生中的应用 | Thermo-Responsive Nanocomposite Bioink with Growth-Factor Holding and its Application to Bone Regeneration | 2022 |
| 7 | 新型3D打印沸石生物载体在好氧和厌氧消化过程中生物膜微生物群落形成的特性 | Characterization of Biofilm Microbiome Formation Developed on Novel 3D-Printed Zeolite Biocarriers during Aerobic and Anaerobic Digestion Processes | 2022 |
| 8 | 可生物降解的多功能3D打印植入物用于有效治疗乳腺癌 | 3D printed biodegradable multifunctional implants for effective breast cancer treatment | 2022 |
| 9 | 通过碱溶解纤维素直接捕集CO2并将其固定在建筑材料和人工礁结构中 | Direct CO2 capture by alkali-dissolved cellulose and sequestration in building materials and artificial reef structures | 2022 |
| 10 | 用于复杂微结构增材制造骨支架孔隙率表征的新型基于图像的方法 | A Novel, Image-Based Method for Characterization of the Porosity of Additively Manufactured Bone Scaffolds with Complex Microstructures | 2022 |
| 11 | 多孔生物矿物的增材制造 | Additive manufacturing of porous biominerals | 2022 |
| 12 | 通过可扩展的磁弹性发电阵列实现成纤维细胞向神经元的自供能编程 | Self-Powered Programming of Fibroblasts into Neurons via a Scalable Magnetoelastic Generator Array | 2022 |
| 13 | 透明质酸和胶原生物墨水支持的3D患者来源脑肿瘤类器官的浸入式生物打印 | Immersion bioprinting of hyaluronan and collagen bioink-supported 3D patient-derived brain tumor organoids | 2022 |
| 14 | 人神经祖细胞簇集的挤出式3D打印策略的开发 | Development of an extrusion-based 3D-printing strategy for clustering of human neural progenitor cells | 2022 |
| 15 | 用于再生医学应用的宏观多孔3D打印结构 | Macroporous 3D printed structures for regenerative medicine applications | 2022 |
| 16 | 一种通过3D生物打印制备益生菌胶囊的简便且稳健的方法 | An easy and robust method of preparation of capsules for delivering probiotic bacteria by a 3D bioprinting | 2022 |
| 17 | 3D生物打印在泌尿系统疾病中的应用 | The application of 3D bioprinting in urological diseases | 2022 |
| 18 | 基于去细胞基质(dECM)的生物墨水,用于3D生物打印仿生组织的初步成果 | Bioink based on the dECM for 3D bioprinting of bionic tissue, the first results obtained on murine model | 2022 |
| 19 | 结合癌细胞和癌相关成纤维细胞的基于共培养的3D生物打印卵巢肿瘤模型 | A Coculture Based, 3D Bioprinted Ovarian Tumor Model Combining Cancer Cells and Cancer Associated Fibroblasts | 2022 |
| 20 | 基于藻酸盐-明胶复合材料支架的挤出3D(生物)打印用于骨骼肌组织工程 | Extrusion 3D (Bio)Printing of Alginate-Gelatin-Based Composite Scaffolds for Skeletal Muscle Tissue Engineering | 2022 |
| 21 | 用于微创可部署结构的4D打印生物兼容磁性复合材料 | 4D Printed Biocompatible Magnetic Composite for Minimally Invasive Deployable Structures | 2022 |
| 22 | 4D打印可编程形状变形水凝胶作为手术中自折叠神经导管,用于无缝神经缝合术 | 4D Printed Programmable Shape-morphing Hydrogels as Intraoperative Self-folding Nerve Conduits for Sutureless Neurorrhaphy | 2022 |
| 23 | 溶瘤单纯疱疹病毒疗法治疗儿童神经内分泌癌 | Oncolytic Herpes Simplex Virotherapy for Pediatric Neuroendocrine Cancer | 2022 |
| 24 | 基于硅的软体并联机器人4D打印及多物理场分析 | Silicon-based soft parallel robots 4D printing and multiphysics analysis | 2022 |
| 25 | 基于藻酸盐的水凝胶墨水用于3D生物打印工程化骨科组织 | Alginate based hydrogel inks for 3D bioprinting of engineered orthopedic tissues | 2022 |
| 26 | 含有大麻油的全新3D明胶-藻酸盐支架设计 | Design of a New 3D Gelatin-Alginate Scaffold Loaded with Cannabis sativa Oil | 2022 |
| 27 | 3D打印双层粘膜粘附雌二醇口腔膜:设计对膜性能、释放动力学和预测体内性能的影响 | 3D printed bilayer mucoadhesive buccal film of estradiol: Impact of design on film properties, release kinetics and predicted in vivo performance | 2022 |
| 28 | 酶促触发脱保护和硫醇化藻酸盐基生物墨水的交联 | Enzymatically Triggered Deprotection and Cross-Linking of Thiolated Alginate-Based Bioinks | 2022 |
| 29 | 基于藻酸盐、明胶和纳米纤维素的生物墨水配方及其在半月板组织工程中的应用 | Formulation and evaluation of a bioink composed of alginate, gelatin, and nanocellulose for meniscal tissue engineering | 2022 |
| 30 | 确立一种研究植物细胞功能的可重复性方法,并使用3D生物打印 | Establishing a reproducible approach to study cellular functions of plant cells with 3D bioprinting | 2022 |
| 31 | 使用GelMA生物墨水和人类成熟脂肪细胞或脂肪干细胞的3D生物打印脂肪组织模型 | Bioprinting of 3D Adipose Tissue Models Using a GelMA-Bioink with Human Mature Adipocytes or Human Adipose-Derived Stem Cells | 2022 |
| 32 | 基于聚己内酯的3D打印支架作为修复肌腱缺损的潜在植入材料 | Polycaprolactone-Based 3D-Printed Scaffolds as Potential Implant Materials for Tendon-Defect Repair | 2022 |
| 33 | 可穿戴生物电子面罩通过气体介质无线检测呼吸系统传染病 | Wearable bioelectronic masks for wireless detection of respiratory infectious diseases by gaseous media | 2022 |
| 34 | 含多种抗病毒药物的新型3D打印模块化片剂:高精度按需滴状药物沉积的实例 | Novel 3D Printed Modular Tablets Containing Multiple Anti-Viral Drugs: a Case of High Precision Drop-on-Demand Drug Deposition | 2022 |
| 35 | 用于骨组织工程的活性PCL-肽和PLA-肽刷共聚物 | Bioactive PCL-Peptide and PLA-Peptide Brush Copolymers for Bone Tissue Engineering | 2022 |
| 36 | 壳聚糖和壳聚糖-纳米羟基磷灰石生物墨水的配方及其可打印性的优化 | Formulation of chitosan and chitosan-nanoHAp bioinks and investigation of printability with optimized bioprinting parameters | 2022 |
| 37 | 含有人骨同种异体移植物颗粒的细胞负载复合水凝胶生物墨水可增强干细胞成骨能力 | Cell-Laden Composite Hydrogel Bioinks with Human Bone Allograft Particles to Enhance Stem Cell Osteogenesis | 2022 |
| 38 | 通过结合半固体注射挤出3D打印与熔融沉积建模开发联合药片 | Development of combi-pills using the coupling of semi-solid syringe extrusion 3D printing with fused deposition modelling | 2022 |
| 39 | 3D生物打印和器官移植:患者的梦想还是伦理噩梦? | 3D Bioprinting and Organ Transplantation: Patient Dream or Ethical Nightmare? | 2022 |
| 40 | 展望章节:具有仿生3D微结构的天然和合成软聚合材料的设计与表征 | Perspective Chapter: Design and Characterization of Natural and Synthetic Soft Polymeric Materials with Biomimetic 3D Microarchitecture for Tissue Engineering and Medical Applications | 2022 |
| 41 | 含羟基磷灰石或氧化石墨烯的基于纳米纤维素的3D生物打印支架用于骨再生 | 3D Bioprinted Hydroxyapatite or Graphene Oxide Containing Nanocellulose-Based Scaffolds for Bone Regeneration | 2022 |
| 42 | 通过三维生物打印过程制造全尺寸构建体的物理修饰混合水凝胶 | Physical Modification of Hybrid Hydrogels to Fabricate Full-Scale Construct Using Three-Dimensional Bio-Printing Process | 2022 |
| 43 | 胶原蛋白结合海藻酸钠生物打印水凝胶用于组织工程的研究 | Investigation of Collagen-Incorporated Sodium Alginate Bioprinting Hydrogel for Tissue Engineering | 2022 |
| 44 | 具有保留的微孔连通性的纳米工程化颗粒水凝胶生物墨水用于挤出式生物打印 | Nanoengineered Granular Hydrogel Bioinks with Preserved Interconnected Microporosity for Extrusion Bioprinting | 2022 |
| 45 | 生物相容的有机电化学晶体管用于伤口愈合监测的聚合物支架 | Biocompatible organic electrochemical transistor on polymeric scaffold for wound healing monitoring | 2022 |
| 46 | 用于多维细胞培养的可挤出的可降解聚乙二醇微凝胶支架的4D打印 | 4D Printing of Extrudable and Degradable Poly(Ethylene Glycol) Microgel Scaffolds for Multidimensional Cell Culture | 2022 |
| 47 | 使用BIO X配备气动打印头的3D神经组织打印协议 | Protocol for printing 3D neural tissues using the BIO X equipped with a pneumatic printhead | 2022 |
| 48 | 基于甲壳素的定制纤维排列、生物医学应用的可调节孔隙率和机械性能的直接墨水写入打印 | Direct Ink Write Printing of Chitin-Based Gel Fibers with Customizable Fibril Alignment, Porosity, and Mechanical Properties for Biomedical Applications | 2022 |
| 49 | 基于丝的3D生物打印骨软骨模型用于骨关节炎治疗研究 | 3D Bioprinted Silk-Based In Vitro Osteochondral Model for Osteoarthritis Therapeutics | 2022 |
| 50 | 使用鲁米黄光交联的胶原水凝胶调节2D培养的人成纤维细胞行为 | Tuning of 2D cultured human fibroblast behavior using lumichrome photocrosslinked collagen hydrogels | 2022 |
| 51 | 通过添加硅酸钙颗粒调节体外稳定性,基于生物活性藻酸二醛-明胶(ADA-GEL)复合生物墨水进行时间依赖的原位交联 | Bioprinting with bioactive alginate dialdehyde-gelatin (ADA-GEL) composite bioinks: Time-dependent in-situ crosslinking via addition of calcium-silicate particles tunes in vitro stability of 3D bioprinted constructs | 2022 |
| 52 | 使用不同浓度四聚体聚合物的3D打印支架上类成骨细胞分化 | Osteoblast-like Cell Differentiation on 3D-Printed Scaffolds Using Various Concentrations of Tetra-Polymers | 2022 |
| 53 | 朝着3D生物打印脊髓类器官发展 | Towards 3D Bioprinted Spinal Cord Organoids | 2022 |
| 54 | 用于培育肉类开发的3D可打印植物蛋白富集支架 | 3D-printable plant protein-enriched scaffolds for cultivated meat development | 2022 |
| 55 | 结合生物响应性释放的胰岛素样生长因子I和3D可打印的热凝胶水凝胶 | Merging bioresponsive release of insulin-like growth factor I with 3D printable thermogelling hydrogels | 2022 |
| 56 | 含有藻酸盐/纤维素基支架的磷酸钙/硫酸钙3D打印用于骨再生:多层制造和表征 | 3D Printing of Calcium Phosphate/Calcium Sulfate with Alginate/Cellulose-Based Scaffolds for Bone Regeneration: Multilayer Fabrication and Characterization | 2022 |
| 57 | 开发并评估一种使用压注微针技术生产唑吡坦含量的3D打印协议 | Development and evaluation of a 3D printing protocol to produce zolpidem-containing printlets, as compounding preparation, by the pressurized-assisted microsyringes technique | 2022 |
| 58 | 通过DLP 3D打印制备BMP-2/PDA-BCP生物陶瓷支架,并评估其连续骨形成能力 | Preparation of BMP-2/PDA-BCP Bioceramic Scaffold by DLP 3D Printing and its Ability for Inducing Continuous Bone Formation | 2022 |
| 59 | 壳聚糖/阿克曼石-TiO2 3D打印支架用于骨组织应用的机械行为、生物活性和细胞毒性评估 | Evaluation of mechanical behavior, bioactivity, and cytotoxicity of chitosan/akermanite-TiO2 3D-printed scaffolds for bone tissue applications | 2022 |
| 60 | 通过M2巨噬细胞极化的壳聚糖/丝素蛋白/纤维素纳米粒子3D打印支架用于骨再生 | 3D-printable chitosan/silk fibroin/cellulose nanoparticle scaffolds for bone regeneration via M2 macrophage polarization | 2022 |
| 61 | 通过转换的商用FDM设备打印的生物聚合物支架中的纤维厚度和孔隙率控制 | Fiber Thickness and Porosity Control in a Biopolymer Scaffold 3D Printed through a Converted Commercial FDM Device | 2022 |
| 62 | 细胞靶向打印:评估ADA-PEG生物墨水用于按需喷墨打印的适用性 | Targeted Printing of Cells: Evaluation of ADA-PEG Bioinks for Drop on Demand Approaches | 2022 |
| 63 | 用于骨组织工程的3D打印、双交联和无菌气凝胶支架 | 3D-Printed, Dual Crosslinked and Sterile Aerogel Scaffolds for Bone Tissue Engineering | 2022 |
| 64 | 3D或不3D:评估3D细胞系统中细胞活力的指南 | 3D or not 3D: a guide to assess cell viability in 3D cell systems | 2022 |
| 65 | 新兴纳米纤维素分离、加工、表征和应用的最新进展:综述 | Recent advancement in isolation, processing, characterization and applications of emerging nanocellulose: A review | 2022 |
| 66 | 用于将治疗性纳米颗粒局部输送至宫颈癌的三维可打印水凝胶配方 | A Three-Dimensional Printable Hydrogel Formulation for the Local Delivery of Therapeutic Nanoparticles to Cervical Cancer | 2022 |
| 67 | 通过界面复合自组装实现多尺度设计的结构超轻气凝胶 | Structured Ultra-Flyweight Aerogels by Interfacial Complexation: Self-Assembly Enabling Multiscale Designs | 2022 |
| 68 | 结合改性PLLA微球的低温3D打印制备的多功能藻酸钠支架 | The fabrication of multifunctional sodium alginate scaffold incorporating ibuprofen-loaded modified PLLA microspheres based on cryogenic 3D printing | 2022 |
| 69 | 磁共振成像作为挤出式生物打印质量控制工具的应用 | Magnetic resonance imaging as a tool for quality control in extrusion-based bioprinting | 2022 |
| 70 | 使用3D生物打印的实质细胞和非实质细胞体外模拟原生肝小叶微结构,用于药物毒性和药物筛选应用 | Mimicking Native Liver Lobule Microarchitecture In Vitro with Parenchymal and Non-parenchymal Cells Using 3D Bioprinting for Drug Toxicity and Drug Screening Applications | 2022 |
| 71 | 向制造生物材料的增材制造方法 | Additive Manufacturing Approaches toward the Fabrication of Biomaterials | 2022 |
| 72 | 含PRGF的复合藻酸盐-明胶水凝胶增强了人类牙髓细胞的粘附、趋化和增殖 | Composite alginate-gelatin hydrogels incorporating PRGF enhance human dental pulp cell adhesion, chemotaxis and proliferation | 2022 |
| 73 | 蚕豆分馏物用于3D打印富含蛋白质、淀粉和纤维的食品 | Faba Bean Fractions for 3D Printing of Protein-, Starch- and Fibre-Rich Foods | 2022 |
| 74 | 展望章节:用于骨组织工程和再生医学的高级制造 | Perspective Chapter: Advanced Manufacturing for Bone Tissue Engineering and Regenerative Medicine | 2022 |
| 75 | 基于I型胶原/PLGA_TGF-β1纳米颗粒的3D打印支架,模拟人骨组织的生长因子痕迹 | 3D Printed Scaffold Based on Type I Collagen/PLGA_TGF-β1 Nanoparticles Mimicking the Growth Factor Footprint of Human Bone Tissue | 2022 |
| 76 | 用于吞咽困难患者的全新剂量机制:“注射器内片剂”,包含使用半固体挤出3D打印的快速溶解片剂 | 'Tablet-in-Syringe': A Novel Dosing Mechanism for Dysphagic Patients Containing Fast-Disintegrating Tablets Fabricated Using Semisolid Extrusion 3D Printing | 2022 |
| 77 | 可回收的承载型3D打印双网络颗粒水凝胶 | Recycling of Load-Bearing 3D Printable Double Network Granular Hydrogels | 2022 |
| 78 | 仿生区域结构基质用于骨-软骨界面工程 | Bio-inspired zonal-structured matrices for bone-cartilage interface engineering | 2022 |
| 79 | 靶向高危神经母细胞瘤患者来源异种移植模型的溶瘤病毒治疗 | Targeting High-Risk Neuroblastoma Patient-Derived Xenografts with Oncolytic Virotherapy | 2022 |
| 80 | 使用计算流体动力学模拟探索参数的甲基纤维素水凝胶伤口敷料3D打印 | 3D Printing Methyl Cellulose Hydrogel Wound Dressings with Parameter Exploration Via Computational Fluid Dynamics Simulation | 2022 |
| 81 | 三维生物打印及其在颅底外科中的应用 | Three-Dimensional Bioprinting and Application in Skull Base Surgery | 2022 |
| 82 | 高稳定性的导电聚合物基贴合电极用于生物/离子电子器件 | High-stability conducting polymer-based conformal electrodes for bio-/iono-electronics | 2022 |
| 83 | 开发苯酚接枝聚葡糖醛酸及其在挤出式生物打印墨水中的应用 | Development of phenol-grafted polyglucuronic acid and its application to extrusion-based bioprinting inks | 2022 |
| 84 | 明胶-羧甲基纤维素-藻酸盐三复合生物墨水用于直接和间接3D打印人膝关节半月板支架 | Tricomposite gelatin-carboxymethylcellulose-alginate bioink for direct and indirect 3D printing of human knee meniscal scaffold | 2022 |
| 85 | 硫酸软骨素和硫酸皮肤素生物墨水用于3D生物打印和软骨再生 | Chondroitin and Dermatan Sulfate Bioinks for 3D Bioprinting and Cartilage Regeneration | 2022 |
| 86 | 沙门氏菌在3D生物打印结构中的生物膜形成研究 | Study of Biofilm Formation of the Samonella Enteritidis in 3D Bioprinted Constructs | 2022 |
| 87 | 不同类型的碳纳米管对组织工程纳米复合材料中细胞粘附的影响 | CNT-Type Dependent Cellular Adhesion on 3D-Printed Nanocomposite for Tissue Engineering | 2022 |
| 88 | 仿生纤维素结合MXene基水凝胶,用于多功能传感和电磁干扰屏蔽 | Bioinspired cellulose‐integrated MXene‐based hydrogels for multifunctional sensing and electromagnetic interference shielding | 2022 |
| 89 | 为生产活体组织和器官开发的3D生物打印机:设计带有Leapfrog Creatr HS打印机的挤出式打印头 | Development of a 3D-bioprinter for the production of living tissues and organs: design of an extrusion-based printing head mounted on a Leapfrog Creatr HS printer | 2022 |
| 90 | 创建3D打印皮脂腺模型用于油脂分泌筛查和烧伤研究 | Creation of a 3D printed sebaceous gland model for oil secretion screening and burns research | 2022 |
| 91 | 3D生物打印含心肌细胞和心脏成纤维细胞的球状液滴用于药物细胞毒性测试 | 3D Bioprinted Spheroidal Droplets with Cardiomyocytes and Cardiac Fibroblasts for Drug Cytotoxicity Testing | 2022 |
| 序号 | 题目翻译 | 原英文题目 | 发表时间 |
|---|---|---|---|
| 1 | UHPLC-MS/MS方法测定奥沙利铂:应用于大鼠药代动力学和舌组织分布研究 | Determination of Oxaliplatin by a UHPLC-MS/MS Method: Application to Pharmacokinetics and Tongue Tissue Distribution Studies in Rats | 2021 |
| 2 | 在肾脏微环境中生物打印神经母细胞瘤模型,作为高效的药物测试平台 | Bioprinted Cancer Model of Neuroblastoma in a Renal Microenvironment as an Efficiently Applicable Drug Testing Platform | 2021 |
| 3 | 开发基于挤出式3D打印的人类神经祖细胞聚集策略 | Development of an Extrusion-Based 3D-Printing Strategy for Clustering of Human Neural-Progenitor Cells | 2021 |
| 4 | 机器学习和机器视觉加速3D打印速溶膜的开发 | Machine Learning and Machine Vision Accelerate 3D Printed Orodispersible Film Development | 2021 |
| 5 | 快速半固态液态金属微粒稳定的半导体电子印刷技术 | Rapid meniscus-guided printing of stable semi-solid-state liquid metal microgranular-particle for soft electronics | 2021 |
| 6 | 蚀刻3D打印聚己内酯结构,功能化为还原石墨烯氧化物以增强牙髓干细胞的附着 | Etched 3D-Printed Polycaprolactone Constructs Functionalized with Reduced Graphene Oxide for Enhanced Attachment of Dental Pulp-Derived Stem Cells | 2021 |
| 7 | 通过直接墨水书写制备生物相容性纳米纤维素和壳聚糖水凝胶,用于植入网状基质 | Direct Ink Writing of Biocompatible Nanocellulose and Chitosan Hydrogels for Implant Mesh Matrices | 2021 |
| 8 | 基于丝绸的骨质皮质骨工程单元,封闭可植入骨髓,用于萎缩性骨折移植 | Silk-Based Bioengineered Diaphyseal Cortical Bone Unit Enclosing an Implantable Bone Marrow toward Atrophic Nonunion Grafting | 2021 |
| 9 | 含干细胞的水凝胶生物墨水用于生成高分辨率和高保真度的复杂组织工程 | Stem cell-laden hydrogel bioink for generation of high resolution and fidelity engineered tissues with complex geometries | 2021 |
| 10 | 3D打印藻酸盐-羟基磷灰石气凝胶支架用于骨组织工程 | 3D-printed alginate-hydroxyapatite aerogel scaffolds for bone tissue engineering | 2021 |
| 11 | 用于大型再生植入物渐进血管化的定制微血管工程 | Engineered Customizable Microvessels for Progressive Vascularization in Large Regenerative Implants | 2021 |
| 12 | 结直肠癌3D生物打印工作流程作为疾病建模和化疗筛查平台 | A Colorectal Cancer 3D Bioprinting Workflow as a Platform for Disease Modeling and Chemotherapeutic Screening | 2021 |
| 13 | Konjac葡甘露聚糖/刺梧桐胶热化学交联心脏补丁的膨胀分析 | Swelling Analysis of Thermal and Chemical Crosslinked Konjac Glucomannan/Gellan Gum Cardiac Patch | 2021 |
| 14 | 铜绿假单胞菌全基因组序列:二十周年庆 | The Pseudomonas aeruginosa whole genome sequence: A 20th anniversary celebration | 2021 |
| 15 | 负荷微球的非桑蚕丝基3D生物打印血管化心脏补丁,具有释放氧气和免疫调节潜力 | Engineering Microsphere-Loaded Non-mulberry Silk-Based 3D Bioprinted Vascularized Cardiac Patches with Oxygen-Releasing and Immunomodulatory Potential | 2021 |
| 16 | 在新生儿住院期间早产婴儿腹股沟疝修补手术的成本和复发 | Cost and Recurrence of Inguinal Hernia Repair in Premature Infants During Neonatal Admission | 2021 |
| 17 | 双胶凝基于聚(N-异丙基丙烯酰胺)的墨水和热可逆Pluronic支持浴,用于高分辨率生物打印 | A dual-gelling poly(N-isopropylacrylamide)-based ink and thermoreversible poloxamer support bath for high-resolution bioprinting | 2021 |
| 18 | 图案化多材料磁性水凝胶致动器的4D打印 | 4D printing of patterned multimaterial magnetic hydrogel actuators | 2021 |
| 19 | 使用约束力调节3D生物打印组织中的血管分支形成 | Regulation of vascular branch formation in 3D bioprinted tissues using confining force | 2021 |
| 20 | 建立新型三维打印模型,用于研究儿童实体肿瘤 | Establishing a Novel 3-Dimensional Printing Model to Study Pediatric Solid Tumors | 2021 |
| 21 | 低温3D打印的生物仿纳米纤维结构聚乳酸支架用于骨组织工程 | Cryogenic 3D printing of modified polylactic acid scaffolds with biomimetic nanofibrous architecture for bone tissue engineering | 2021 |
| 22 | 生物工艺启发的可打印自愈矿物水凝胶,用于快速响应的可穿戴离子皮肤 | Bioprocess-inspired synthesis of printable, self-healing mineral hydrogels for rapidly responsive, wearable ionic skin | 2021 |
| 23 | 3D打印和纤维素纳米纤维增强的榅桲种子粘液生物墨水的特性 | 3D printing and properties of cellulose nanofibrils-reinforced quince seed mucilage bio-inks | 2021 |
| 24 | 各种尺度下磁响应软材料的机械引导4D打印 | Mechanically‐Guided 4D Printing of Magnetoresponsive Soft Materials across Different Length Scale | 2021 |
| 25 | 通过混合动态交联剂调节水凝胶:实现细胞指令性水凝胶和高级生物墨水 | Tuning Hydrogels by Mixing Dynamic Cross-Linkers: Enabling Cell-Instructive Hydrogels and Advanced Bioinks | 2021 |
| 26 | 仿生双网络水凝胶:结合动态和静态交联以实现生物制造和控制细胞-基质相互作用 | Biomimetic double network hydrogels: Combining dynamic and static crosslinks to enable biofabrication and control cell‐matrix interactions | 2021 |
| 27 | 多材料生物打印的最新技术 | Emerging Technologies in Multi-Material Bioprinting | 2021 |
| 28 | 热敏药物的3D打印 | 3D Printing of Thermo-Sensitive Drugs | 2021 |
| 29 | 可3D打印的基于纳米纤维素的功能性材料:基础与应用 | 3D-Printable Nanocellulose-Based Functional Materials: Fundamentals and Applications | 2021 |
| 30 | 最新的经济型生物打印机:DIY社区指南 | State-of-art affordable bioprinters: A guide for the DiY community | 2021 |
| 31 | 3D打印个性化光交联水凝胶伤口敷料用于治疗热烧伤 | 3D Printing Personalized, Photocrosslinkable Hydrogel Wound Dressings for the Treatment of Thermal Burns | 2021 |
| 32 | 含细胞的构造在3D打印复合磷酸盐水凝胶上的空间和均匀沉积,用于改善成骨反应 | Spatial and uniform deposition of cell-laden constructs on 3D printed composite phosphorylated hydrogels for improved osteoblast responses | 2021 |
| 33 | 石墨烯微超级电容器芯片的原位选择性表面工程 | In-situ selective surface engineering of graphene micro-supercapacitor chips | 2021 |
| 34 | 柔性纳米和微尺度物理传感器材料与制造方法综述 | Review of Materials and Fabrication Methods for Flexible Nano and Micro-Scale Physical Property Sensors | 2021 |
| 35 | 3D生物打印血管化胶质母细胞瘤芯片,用于模拟微重力在脑肿瘤治疗中的应用 | A 3D‐Bioprinted Vascularized Glioblastoma‐on‐a‐Chip for Studying the Impact of Simulated Microgravity as a Novel Pre‐Clinical Approach in Brain Tumor Therapy | 2021 |
| 36 | N,O-羧甲基壳聚糖和琼脂生物墨水的流变性、可打印性和生物相容性研究,用于3D生物打印神经元细胞 | Investigation of rheology, printability, and biocompatibility of N,O-carboxymethyl chitosan and agarose bioinks for 3D bioprinting of neuron cells | 2021 |
| 37 | 可注射的非浸出瓶刷弹性体,作为重建手术的高级平台 | Injectable non-leaching tissue-mimetic bottlebrush elastomers as an advanced platform for reconstructive surgery | 2021 |
| 38 | 设计可互换多材料喷嘴系统用于3D生物打印工艺 | Designing an Interchangeable Multi-Material Nozzle System for 3D Bioprinting Process | 2021 |
| 39 | 对流增强输送光响应抗原捕获氧气发生器用于化疗-光疗触发的适应性免疫 | Convection enhanced delivery of light responsive antigen capturing oxygen generators for chemo-phototherapy triggered adaptive immunity | 2021 |
| 40 | 3D生物打印细胞负载聚氨酯水凝胶结构中不分支的血管网络形成的力学调节 | Mechano-regulation of vascular network formation without branches in 3D bioprinted cell-laden hydrogel constructs | 2021 |
| 41 | 电磁场辅助3D打印含细胞的Pluronic 407水凝胶,用于增强成骨作用 | Electromagnetic field-assisted cell-laden 3D printed poloxamer-407 hydrogel for enhanced osteogenesis | 2021 |
| 42 | BaTiO3基陶瓷的3D打印混合墨水 | Hybrid inks for 3D printing of tall BaTiO3-based ceramics | 2021 |
| 43 | 3D生物打印含细胞的Carbopol生物墨水 | 3D bioprinting of cell-laden carbopol bioinks | 2021 |
| 44 | 3D打印,机械可调的复合藻酸盐、明胶和阿拉伯胶支架 | 3D printed, mechanically tunable, composite sodium alginate, gelatin and Gum Arabic (SA-GEL-GA) scaffolds | 2021 |
| 45 | 3D打印药物的临床应用转化:从炒作到现实世界的应用 | Translating 3D printed pharmaceuticals: From hype to real-world clinical applications | 2021 |
| 46 | 纳米纤维素-藻酸盐-(透明质酸)-生物墨水的开发、特性研究及3D生物打印支架的消毒 | Development, characterization and sterilisation of Nanocellulose-alginate-(hyaluronic acid)- bioinks and 3D bioprinted scaffolds for tissue engineering | 2021 |
| 47 | 多尺度3D打印组织再生中天然多糖生物墨水的最新趋势:综述 | Recent trends in natural polysaccharide based bioinks for multiscale 3D printing in tissue regeneration: A review | 2021 |
| 48 | 一种具有优异可打印性、形状保持性和细胞相容性的热凝胶有机-无机混合水凝胶,用于3D生物打印 | A Thermogelling Organic-Inorganic Hybrid Hydrogel with Excellent Printability, Shape Fidelity and Cytocompatibility for 3D Bioprinting | 2021 |
| 49 | 调节聚(2-恶唑啉)/聚(2-恶唑嗪)基热敏水凝胶的热凝胶化和流变性,用于3D生物打印 | Tuning the Thermogelation and Rheology of Poly(2-Oxazoline)/poly(2-Oxazine)s Based Thermosensitive Hydrogels for 3D Bioprinting | 2021 |
| 50 | 再生医学中生物打印的综述:天然衍生的生物墨水和干细胞 | Review of Bioprinting in Regenerative Medicine: Naturally Derived Bioinks and Stem Cells | 2021 |
| 51 | 纤维素纳米材料的流变学方面:控制因素和新兴应用 | Rheological Aspects of Cellulose Nanomaterials: Governing Factors and Emerging Applications | 2021 |
| 52 | 用于内腔缺陷封闭的微创电疗导管 | Minimally invasive electroceutical catheter for endoluminal defect sealing | 2021 |
| 53 | 半固态挤出3D打印在药物传递和生物医学中的应用:为医疗保健挑战提供个性化解决方案 | Semi-solid extrusion 3D printing in drug delivery and biomedicine: Personalised solutions for healthcare challenges | 2021 |
| 54 | 使用藻酸盐-明胶水凝胶3D生物打印的心内皮细胞中可打印性、耐用性、收缩性和血管网络形成 | Printability, Durability, Contractility and Vascular Network Formation in 3D Bioprinted Cardiac Endothelial Cells Using Alginate-Gelatin Hydrogels | 2021 |
| 55 | 用于4D直接打印的温度诱导自卷水凝胶驱动器的Thermoinks开发 | Development of Thermoinks for 4D Direct Printing of Temperature‐Induced Self‐Rolling Hydrogel Actuators | 2021 |
| 56 | 光纤设备技术中的3D打印 | 3D Printing in Fiber-Device Technology | 2021 |
| 57 | 基于乳液凝胶的3D打印固体脂质片剂 | 3D-printing of solid lipid tablets from emulsion gels | 2021 |
| 58 | 模拟肿瘤免疫微环境(TIME)-芯片,模拟中性粒细胞-肿瘤动力学和中性粒细胞外捕网(NETs)介导的集体肿瘤侵袭 | A novel tumor-immune microenvironment (TIME)-on-Chip mimics three dimensional neutrophil-tumor dynamics and neutrophil extracellalar traps (NETs)- mediated collective tumor invasion | 2021 |
| 59 | 复合水凝胶和无机生物活性填料作为3D生物打印潜在材料 | Composite inks of hydrogels and inorganic bioactive fillers as potential materials for 3D bioprinting | 2021 |
| 60 | 3D生物打印组织和器官的概述——综述 | Overview of 3D Bioprinting of tissues and organs–A Review | 2021 |
| 序号 | 题目翻译 | 原英文题目 | 发表时间 |
|---|---|---|---|
| 1 | 三维生物打印透明质酸水凝胶测试床用于评估神经细胞对竞争性生长刺激的反应 | Three-Dimensional Bioprinted Hyaluronic Acid Hydrogel Test Beds for Assessing Neural Cell Responses to Competitive Growth Stimuli | 2020 |
| 2 | 具有传感和抗菌活性的纳米胶体水凝胶,通过铁离子捕获调控 | Nanocolloidal Hydrogel with Sensing and Antibacterial Activities Governed by Iron Ion Sequestration | 2020 |
| 3 | 忠实的扫描电子显微镜(SEM)可视化三维打印的藻酸基支架 | Faithful scanning electron microscopic (SEM) visualization of 3D printed alginate-based scaffolds | 2020 |
| 4 | 通过3D生物打印的骨替代物研究进展 | Advances on Bone Substitutes through 3D Bioprinting | 2020 |
| 5 | 一种仿生且分层结构的形状记忆材料 | A bioinspired and hierarchically structured shape-memory material | 2020 |
| 6 | 用于3D打印纳米结构骨支架的胶原混合配方:优化的金印花交联策略 | Collagen Hybrid Formulations for the 3D Printing of Nanostructured Bone Scaffolds: An Optimized Genipin-Crosslinking Strategy | 2020 |
| 7 | 用于心肌梗死后长期药物释放治疗的多功能3D打印贴片 | Multifunctional 3D‐Printed Patches for Long‐Term Drug Release Therapies after Myocardial Infarction | 2020 |
| 8 | 3D打印的刺激响应磁性纳米颗粒嵌入藻酸-甲基纤维素水凝胶驱动器 | 3D printed stimuli-responsive magnetic nanoparticle embedded alginate-methylcellulose hydrogel actuators | 2020 |
| 9 | 用于生物医学应用的基于视觉的力感知磁性微型机器人的刚度表征和微操纵 | Stiffness Characterization and Micromanipulation for Biomedical Applications using the Vision-based Force-Sensing Magnetic Mobile Microrobot | 2020 |
| 10 | 动态肽折叠介导的生物功能化和水凝胶的调节,用于4D生物打印 | Dynamic peptide-folding mediated biofunctionalization and modulation of hydrogels for 4D bioprinting | 2020 |
| 11 | 糖/水凝胶墨水的配方,用于快速热响应4D结构的糖衍生大孔 | Formulation of Sugar/Hydrogel Inks for Rapid Thermal Response 4D Architectures with Sugar-derived Macropores | 2020 |
| 12 | 使用藻酸中空纤维作为牺牲模板的快速制造预血管网络明胶支架 | Rapid Fabrication of Ready-to-Use Gelatin Scaffolds with Prevascular Networks Using Alginate Hollow Fibers as Sacrificial Templates | 2020 |
| 13 | 由几丁质纳米纤维稳定的高内部相油-水Pickering乳液:3D结构和固体泡沫 | High Internal Phase Oil-in-Water Pickering Emulsions Stabilized by Chitin Nanofibrils: 3D Structuring and Solid Foam | 2020 |
| 14 | 使用人角质形成细胞、成纤维细胞、周细胞和内皮细胞三维生物打印的血管化和可灌注皮肤移植 | Three Dimensional Bioprinting of a Vascularized and Perfusable Skin Graft Using Human Keratinocytes, Fibroblasts, Pericytes, and Endothelial Cells | 2020 |
| 15 | 工程喷墨生物打印工艺迈向可转化疗法 | Engineering inkjet bioprinting processes toward translational therapies | 2020 |
| 16 | 明胶甲基丙烯酰基(GelMA)水凝胶的合成工艺改进和用于组织工程的混合纳米颗粒-GelMA生物墨水开发 | On the improvement of the Process of Synthesis of Gelatin Methacryloyl (GelMA) Hydrogels and development of a hybrid nanoparticle-GelMA-based Bioink for Tissue Engineering | 2020 |
| 17 | 用于法洛氏四联症和大动脉肺动脉侧支动脉在肺动脉闭锁中的体外分析和治疗计划的患者特异性三维生物打印模型 | Patient-Specific 3-Dimensional-Bioprinted Model for In Vitro Analysis and Treatment Planning of Pulmonary Artery Atresia in Tetralogy of Fallot and Major Aortopulmonary Collateral Arteries | 2019 |
| 18 | 使用分散液通过3D打印制造的蜂窝结构IPMC驱动器的频率响应 | Frequency Response of Honeycomb Structured IPMC Actuator Fabricated through 3D Printing with Dispersion Liquid | 2019 |
| 19 | 用于直接墨水书写的双相乳胶用于皮肤结构的生物打印 | Two‐Phase Emulgels for Direct Ink Writing of Skin‐Bearing Architectures | 2019 |
| 20 | 3D打印生物墨水的化学洞察 | Chemical insights into bioinks for 3D printing | 2019 |
| 21 | 乙酰化纳米纤维素作为单组分生物墨水和在3D打印支架上的细胞增殖 | Acetylated Nanocellulose for Single-Component Bioinks and Cell Proliferation on 3D-Printed Scaffolds | 2019 |
| 22 | 评估3D生物打印材料和培养方法,基于肌肉细胞驱动的驱动器 | Evaluation of 3D-Bioprinted Materials and Culture Methods Toward Actuator Driven by Skeletal Muscle Cells | 2019 |
| 23 | 软功能结构的增材制造,用于下一代软机器人 | Additive Manufacturing of Soft, Functional Structures for Next-Generation Soft Robotics | 2019 |
| 24 | 多长度尺度的生物打印以模拟微环境线索 | Multi-length scale bioprinting towards simulating microenvironmental cues | 2018 |
| 25 | 皮肤组织工程使用3D生物打印:一个不断发展的研究领域 | Skin tissue engineering using 3D bioprinting: An evolving research field | 2018 |
| 26 | 功能渐变的增材制造实现骨软骨支架的功能性规格 | Functionally graded additive manufacturing to achieve functionality specifications of osteochondral scaffolds | 2018 |
| 27 | 开发创新的三维细胞培养模型以模拟神经退行性疾病 | Development of innovative three dimensional cell culture for modelling neurodegenerative diseases | 2018 |