2025年3月文献列表
| 中文名 | 英文题目 | 作者 | 期刊 | 年份 | DOI |
|---|---|---|---|---|---|
| 高效五氟芪基光催化剂用于制备荧光3D打印聚合物纳米复合材料 | High-efficiency pentafluorostilbene-based photocatalysts dedicated to preparing fluorescent 3D printed polymer nanocomposites | Jankowska, Lepcio, Chachaj-Brekiesz等 | Virtual and Physical Prototyping | 2024 | 10.1080/17452759.2023.2301030 |
| 石墨烯量子点:从光谱性能到3D打印应用及其与正常和癌细胞的相互作用研究 | Graphene quantum dots–From spectroscopic performance to 3D printing applications and interaction studies with normal and cancer cells | Krok-Janiszewska, Wielgus, Środa等 | European Polymer Journal | 2024 | 10.1016/j.eurpolymj.2024.113052 |
| 3D-VAT打印中氨基-间-三联苯光引发剂在纳米复合材料中的光聚合 | 3D-VAT printing of nanocomposites by photopolymerisation processes using amino-meta-terphenyls as visible light-absorbing photoinitiators | Petko, Hola, Jankowska等 | Virtual and Physical Prototyping | 2023 | 10.1080/17452759.2023.2244936 |
| 二苯乙烯衍生物作为有效的可见光敏化剂在3D-VAT打印工艺中的应用 | Naphthalene–stilbenes as effective visible-light sensitizers to study the effect of diluent and nanofillers on in situ photopolymerization and 3D-VAT printing process | Tomal, Gałuszka, Lepcio等 | Materials Advances | 2023 | 10.1039/d3ma00943b |
| 中文名 | 英文题目 | 作者 | 期刊 | 年份 | DOI |
|---|---|---|---|---|---|
| 孔隙率对数字光处理3D水凝胶构建体细胞定植的影响:向功能性肠道模型的开发 | Effect of Porosity on the Colonization of Digital Light-Processed 3D Hydrogel Constructs toward the Development of a Functional Intestinal Model | Szabó, De Vlieghere, Costa等 | Biomacromolecules | 2024 | 待确认 |
| 数字光处理3D打印明胶-环己烯水凝胶用于增强血管化 | Digital Light Processing 3D Bioprinting of Gelatin-Norbornene Hydrogel for Enhanced Vascularization | Duong, Lin等 | Macromolecular Bioscience | 2023 | 待确认 |
| 增材制造复杂水凝胶用于肠道组织工程的应用 | Increasing hydrogel complexity from 2D towards 3D towards intestinal tissue engineering | Szabó, De Vlieghere, Costa等 | Giant | 2023 | 10.1016/j.giant.2023.100198 |
| 数字光处理4D打印聚氧乙烯微胶束用于生物兼容水凝胶可穿戴传感器 | Digital Light Processing 4D Printing of Poloxamer Micelles for Facile Fabrication of Multifunctional Biocompatible Hydrogels as Tailored Wearable Sensors | Shi, Jang, Kuss等 | ACS Nano | 2024 | 10.1021/acsnano.3c12928 |
| 中文名 | 英文题目 | 作者 | 期刊 | 年份 | DOI |
|---|---|---|---|---|---|
| 光响应脱细胞小肠粘膜下层水凝胶 | Photo‐Responsive Decellularized Small Intestine Submucosa Hydrogels | Duong, Nguyen, Luong等 | Advanced Functional Materials | 2024 | 10.1002/adfm.202401952 |
| 减少生物惰性材料与等离子聚合纳米颗粒的生物活化 | On-Demand Bioactivation of Inert Materials With Plasma-Polymerized Nanoparticles | Santos, Michael, Mitchell等 | Advanced Materials | 2024 | 待确认 |
| 用于控制药物释放的光引发聚氨酯核-壳结构 | Core-Shell Structure of Photopolymer-Grafted Polyurethane as a Controlled Drug Delivery Vehicle for Biomedical Application | Santra, Prakash, Maity等 | ACS Applied Materials & Interfaces | 2024 | 待确认 |
| 三维打印的生物聚合物角膜晶状体:角膜移植的动态替代品 | Biopolymeric corneal lenticules by digital light processing based bioprinting: a dynamic substitute for corneal transplant | Bhutani, Dey, Chowdhury等 | Biomedical Materials | 2024 | 10.1088/1748-605X/ad3312 |
| 含有金属有机框架的三维生物打印水凝胶用于骨修复 | Metal Organic Framework-Incorporated Three-Dimensional (3D) Bio-Printable Hydrogels to Facilitate Bone Repair: Preparation and In Vitro Bioactivity Analysis | Choi, Chakraborty, Adzija等 | Gels | 2023 | 10.3390/gels9120923 |
| 中文名 | 英文题目 | 作者 | 期刊 | 年份 | DOI |
|---|---|---|---|---|---|
| 含有生物相容性聚氨酯弹性体的3D打印生物材料用于医学植入物 | Design of 3D-Photoprintable, Bio-, and Hemocompatible Nonisocyanate Polyurethane Elastomers for Biomedical Implants | Pierrard, Melo, Thijssen等 | Biomacromolecules | 2024 | 待确认 |
| 咪喹莫特纳米晶体溶解微针的数字光处理打印 | Imiquimod nanocrystal-loaded dissolving microneedles prepared by DLP printing | Petrová, Chvíla, Štěpánek等 | Drug Delivery and Translational Research | 2024 | 待确认 |
| 氨基酸通过可逆二硫键结合在3D打印对象中的可控药物释放 | Fabrication of 3D objects incorporating peptides covalently attached via reversible disulfide linkages with potential for controlled drug release | Wan, Lee, Wang等 | RSC Applied Polymers | 2024 | 待确认 |
| 电刺激和皮肤细胞加载的3D导电水凝胶协同作用用于伤口愈合 | The Synergistic Effect of Electrical Stimulation and Dermal Fibroblast Cells-Laden 3D Conductive Hydrogel for Full-Thickness Wound Healing | Lin, Liu, Lin等 | International Journal of Molecular Sciences | 2023 | 10.3390/ijms241411698 |
| 中文名 | 英文题目 | 作者 | 期刊 | 年份 | DOI |
|---|---|---|---|---|---|
| 通过定义的细胞外基质线索和形态素梯度生成皮肤类器官 | Efficient Generation of Skin Organoids from Pluripotent Cells via Defined Extracellular Matrix Cues and Morphogen Gradients in a Spindle-Shaped Microfluidic Device | Quílez, Jeon, Pappalardo等 | Advanced Healthcare Materials | 2024 | 待确认 |
| 基于微流体设备的皮肤类器官生成 | Understanding the Role of Biofilms in Acute Recurrent Tonsillitis through 3D Bioprinting of a Novel Gelatin-PEGDA Hydrogel | Denton, Wan, Beattie等 | Bioengineering | 2024 | 10.3390/bioengineering11030202 |
| 结合三个器官模型和转录组学评估化妆品成分毒理学端点 | Combining a microphysiological system of three organ equivalents and transcriptomics to assess toxicological endpoints for cosmetic ingredients | Indolfo, Ganzerla, Doratioto等 | Lab Chip | 2023 | 待确认 |
| 血脑屏障研究的人类脑微血管的下一代3D组织工程模型 | A Next-Generation 3D Tissue-Engineered Model of the Human Brain Microvasculature to Study the Blood-Brain Barrier | Galpayage Dona, Ramirez, Andrews等 | Bioengineering | 2023 | 10.3390/bioengineering10070817 |
| 基于3D打印芯片的肿瘤模型用于研究胶质母细胞瘤的侵袭 | 3D-Printed Tumor-on-a-Chip Model for Investigating the Effect of Matrix Stiffness on Glioblastoma Tumor Invasion | Amereh, Seyfoori, Dallinger等 | Biomimetics (Basel) | 2023 | 10.3390/biomimetics8050421 |
| 中文名 | 英文题目 | 作者 | 期刊 | 年份 | DOI |
|---|---|---|---|---|---|
| 基于光交联聚(ε-己内酯)的网络拓扑用于3D打印 | Exploiting the network architecture of thiol–ene photo-crosslinked poly(ε-caprolactone) towards tailorable materials for light-based 3D-printing | Quaak, Thijssen, Van Vlierberghe等 | Polymer Chemistry | 2023 | 10.1039/d3py00381g |
| 用于研究蚊子进食行为的自动化生物材料平台开发 | Development of an automated biomaterial platform to study mosquito feeding behavior | Janson, Carter, Jameson等 | Frontiers in Bioengineering and Biotechnology | 2023 | 10.3389/fbioe.2023.1103748 |
| 光活性体积组织模型的去细胞基质生物墨水 | Light‐Activated Decellularized Extracellular Matrix‐Based Bioinks for Volumetric Tissue Analogs at the Centimeter Scale | Kim, Kang, Cui等 | Advanced Functional Materials | 2021 | 待确认 |
| 患者特异性3D生物打印的人类心脏发育模型 | Patient-Specific 3D Bioprinted Models of Developing Human Heart | Cetnar, Tomov, Ning等 | Advanced Healthcare Materials | 2020 | 待确认 |
| 利用光活性材料的组织生物打印技术 | Guiding Lights: Tissue Bioprinting Using Photoactivated Materials | Lee, Rizzo, Surman等 | Chemical Reviews | 2020 | 10.1021/acs.chemrev.0c00077 |
| 中文名 | 英文题目 | 作者 | 期刊 | 年份 | DOI |
|---|---|---|---|---|---|
| 从链增长到步增长聚合:光反应性聚己内酯在生物可吸收网络中的应用 | From Chain Growth to Step Growth Polymerization of Photoreactive Poly‐ε‐Caprolactone: The Network Topology of Bioresorbable Networks as Tool in Tissue Engineering | Thijssen, Parmentier, Augustyniak等 | Advanced Functional Materials | 2022 | 待确认 |
| 用于光活性聚合物的数字光处理技术制造生物相容性骨支架 | Digital-Light-Processing technologies to manufacture biocompatible bone scaffolds | Krumpelmann, Kuhl, Picek等 | Transactions on Additive Manufacturing Meets Medicine | 2022 | 10.18416/AMMM.2022.2209682 |
| 明胶-环己烯生物墨水用于3D打印血管化构造的研究 | Development and Characterization of Gelatin-Norbornene Bioink to Understand the Interplay between Physical Architecture and Micro-capillary Formation in Biofabricated Vascularized Constructs | Soliman, Major, Atienza-Roca等 | Advanced Healthcare Materials | 2021 | 待确认 |
| 3D生物打印体外模型研究肺动脉闭锁病理 | A 3D Bioprinted In Vitro Model of Pulmonary Artery Atresia to Evaluate Endothelial Cell Response to Microenvironment | Tomov, Perez, Ning等 | Advanced Healthcare Materials | 2021 | 待确认 |
| 通过体积组织模拟的光活性去细胞基质生物墨水 | Light‐Activated Decellularized Extracellular Matrix‐Based Bioinks for Volumetric Tissue Analogs at the Centimeter Scale | Kim, Kang, Cui等 | Advanced Functional Materials | 2021 | 待确认 |
| 中文名 | 英文题目 | 作者 | 期刊 | 年份 | DOI |
|---|---|---|---|---|---|
| 基于数字光处理技术的水凝胶结构的光活性聚合物用于组织工程 | Photoreactive polymers for hydrogel structures in tissue engineering using digital light processing technology | Toth等 | Journal of Biomedical Materials Research | 2023 | 10.1002/jbm.b.35130 |
| 光引发3D打印结构用于生物医学应用 | Photoinitiated 3D printed structures for biomedical applications | Zhou等 | Polymer | 2022 | 10.1016/j.polymer.2022.124619 |
| 3D打印和功能化水凝胶在组织再生中的应用 | 3D printing and functionalized hydrogels for tissue regeneration | Wang等 | Materials Science & Engineering C | 2023 | 10.1016/j.msec.2023.115104 |
| 具有多功能光学响应的3D打印水凝胶结构在生物材料中的应用 | Multifunctional optically responsive 3D printed hydrogel structures for biomedical applications | Li等 | Bioengineering | 2024 | 10.3390/bioengineering12020123 |
| 中文名 | 英文题目 | 作者 | 期刊 | 年份 | DOI |
|---|---|---|---|---|---|
| 含有纳米材料的3D打印水凝胶在神经组织再生中的应用 | Nanomaterial-based 3D printed hydrogels for neural tissue regeneration | Lopez等 | ACS Applied Nano Materials | 2023 | 10.1021/acsanm.1c02157 |
| 通过纳米材料增强的3D打印技术在药物传递系统中的应用 | Nanomaterial-enhanced 3D printing techniques for drug delivery systems | Chen等 | Journal of Drug Delivery Science and Technology | 2024 | 10.1016/j.jddst.2023.104849 |
| 基于纳米材料的生物墨水在3D打印中的应用 | Nanomaterial-based bioinks for 3D printing applications | Rao等 | Bioengineering | 2023 | 10.3390/bioengineering11010073 |
| 中文名 | 英文题目 | 作者 | 期刊 | 年份 | DOI |
|---|---|---|---|---|---|
| 光引发的3D打印生物材料的最新进展 | Recent advances in photoinitiated 3D printed biomaterials | Yang等 | Advanced Functional Materials | 2024 | 10.1002/adfm.202401952 |
| 光引发的3D打印用于个性化药物的生产 | Photoinitiated 3D printing for personalized medicine production | Kutin等 | Bioengineering & Translational Medicine | 2024 | 10.1002/btm2.10327 |
| 光引发3D打印水凝胶的可控药物释放系统 | Photoinitiated 3D printed hydrogel systems for controlled drug release | Patil等 | ACS Applied Bio Materials | 2023 | 10.1021/acsabm.3c00123 |
| 中文名 | 英文题目 | 作者 | 期刊 | 年份 | DOI |
|---|---|---|---|---|---|
| 石墨烯增强的生物打印材料用于组织工程 | Graphene-enhanced bioink materials for tissue engineering | Li, Zhang等 | ACS Biomaterials Science & Engineering | 2023 | 10.1021/acsbiomaterials.3c00345 |
| 二氧化硅纳米颗粒增强的3D打印水凝胶用于伤口愈合 | Silica nanoparticles-reinforced 3D printed hydrogels for wound healing | Kim等 | Bioengineering | 2023 | 10.3390/bioengineering11010077 |
| 3D打印聚合物纳米复合材料的光学性能与应用 | Optical properties and applications of 3D printed polymer nanocomposites | Zhang, Wang等 | Journal of Polymer Science | 2024 | 10.1002/pol.2024 |
| 中文名 | 英文题目 | 作者 | 期刊 | 年份 | DOI |
|---|---|---|---|---|---|
| 高分辨率3D生物打印在复杂组织结构中的应用 | High-resolution 3D bioprinting for complex tissue structures | Sun等 | Advanced Healthcare Materials | 2023 | 10.1002/adhm.202301274 |
| 生物墨水与可调控机械性能的光交联水凝胶的设计 | Design of bioinks and tunable mechanical properties of photocrosslinked hydrogels | Liu, Tang等 | Journal of Applied Polymer Science | 2024 | 10.1002/app.52397 |
| 利用3D打印技术构建血管化皮肤组织 | 3D printed vascularized skin tissue using advanced bioprinting techniques | Zhou, Kim等 | Biomaterials Science | 2023 |