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机译:来自分散的2D纳米材料墨水的3D印刷多功能架构的治疗方法的进步
Department of Materials Science and Metallurgical Engineering Indian Institute of Technology Hyderabad Sangareddy Kandi Telangana 502285 India;
Department of Inorganic Chemistry University of Chemistry and Technology Prague Technická 5 Prague 6 Prague 166 28 Czech Republic;
Department of Materials Science and Metallurgical Engineering Indian Institute of Technology Hyderabad Sangareddy Kandi Telangana 502285 India;
Centre for 3D Printing Materials and Additive Manufacturing Technology Institute of Advanced Wear &
Corrosion Resistant and Functional Materials Jinan University Guangzhou 510632 China;
School of Engineering Faculty of Science Engineering and Technology Swinburne University of Technology Victoria Hawthorn 3122 Australia;
Department of Materials Science and Metallurgical Engineering Indian Institute of Technology Hyderabad Sangareddy Kandi Telangana 502285 India;
School of Engineering Faculty of Science Engineering and Technology Swinburne University of Technology Victoria Hawthorn 3122 Australia;
2D nanomaterials; 3D printing; biomedical applications; ink formulation; tissue engineering;
机译:液体金属辅助合成可伸缩的2D纳米材料:屏幕印刷能量存储应用的前瞻性沉积物墨水
机译:用于2D和3D印刷柔性电子产品的导电纳米材料
机译:3D打印粉末基液体油墨的金属体系结构
机译:用于界面治疗递送和基于基于基于底物细胞询问的工程多功能生物易用的纳米材料
机译:3D打印的体外分析设备,用于糖尿病治疗和血库研究。
机译:3D打印的微流体:使用一步双材料的3D打印的微流体由分隔的液滴网络和纳米材料形成极化的功能性人造细胞(Adv。Sci。1/2020)
机译:水性和生物相容的2D水晶油墨:从油墨配方到 全喷墨印刷异质结构
机译:将超稳定蛋白长丝工程化为高级纳米材料的二维和三维模板:材料设计的新维度。