​复旦大学智慧纳米机器人与纳米系统国际研究院简介

复旦大学智慧纳米机器人与纳米系统国际研究院是筹建中的复旦大学独立的二级实体科学研究机构。

智慧纳米机器人与纳米系统国际研究院由中国科学院院士和德国科学与工程院院士领衔指导，立足复旦大学江湾校区和复旦大学义乌研究院，以双基地模式建设示范性国际化高水平研究院。国际研究院致力于微纳加工、微纳操控、微纳感知、微纳米机器人及相关系统的基础和应用研究，期望获得重大原始创新和应用成果转化，推动材料科学与工程、电子科学与技术和生物医学工程等学科的快速发展。国际研究院对接上海具有全球影响力的科技创新中心建设任务，聚集材料、物理、生物、医学和微电子等学科的顶级专家学者，建立具有鲜明特色的国际一流微纳制造和微纳机械的研发中心。基于复旦大学江湾校区和复旦大学义乌研究院双基地，国际研究院一期建设面积5000平方米，研究队伍100人以上。

国际研究院将开展微纳加工、微纳操控、微纳感知、微纳米机器人和微纳系统等领域前沿创新与应用基础的研究，主要包括：

1. 功能与智能材料：磁性材料，形状记忆材料，光电材料，智能感知材料，微型化机器人用材料，水凝胶材料，催化材料等；

2. 微纳器件与集成：微纳驱动器件，微纳执行器件，多功能传感器件，能源存储与转换器件，存储器件，先进通信器件等；

3. 智慧与仿生系统：分子机器及组装体，多功能集成微纳米系统，环境适应及高效交互的微型化机器人系统，传感、执行与交互微系统，类皮肤传感器及集成系统等。

International Institute for Intelligent Nanorobots and Nanosystems (IIINN) is an independent research institute of Fudan University.

IIINN is supervised by academicians of Chinese Academy of Sciences and German Academy of Science and Engineering (acatech). On the basis of Jiangwan campus and Yiwu Research Institute of Fudan University, IIINN will become a demonstrative high-level internationalized research institute. IIINN concentrates on fundamental and practical researches related to micro-/nano-fabrication, micromanipulation, micro-/nano-robots, and corresponding systems. IIINN expects to produce significant original innovation, promote the commercialization of research outputs, and accelerate the development of related disciplines like materials science and engineering, electronic science and technology, and biomedical engineering. IIINN will bring together top-notch scientists and researchers in the fields of materials, physics, biology, and microelectronics to build unique first-class micro-/nano-robotics research center. The first phase of the institute will occupy an area of more than 5000 m² and possess a team of 100+ staffs.

The scope of IIINN's research includes but not limited to the following areas:

1. Functional and intelligent materials: magnetic materials, shape memory materials, photoelectric materials, intelligent sensing materials, miniaturized robot materials, hydrogel materials, catalytic materials, etc.

2. Micro-/nano-devices and integration: micro-/nano-engines, micro-/nano­ actuators, multi-functional sensors, energy storage and conversion devices, memory devices, advanced communication devices, etc.

3. Intelligent and bionic systems: molecular machines and assemblies, multifunctional integrated micro-/nano-systems, environment adaptive and interactive miniaturized robots and systems, micro-systems for sensing, execution, and communication, skin-like sensors and systems, epidermal electronics, etc.