This project is jointly undertaken by the Institute of Advanced Technology of the Chinese Academy of Sciences in collaboration with South China Normal University, Nanjing University and Tsinghua University. The project aims to reveal the microstructure, local response and macroscopic properties of photovoltaic, thermoelectric, magneto-electric materials and devices, and analyzes the role of ferroelectric polarization in the regulation of photoelectric conversion, the influence of interfaces and defects on thermoelectric transport, and micro-nano The interaction between the structure and magnetoelectric coupling, the development of nanometer measurement and control technology based on multi-function scanning probes, and the quantitative and quantitative measurement and control of multiple physical and transport properties of materials at the nanoscale, including electrical, optical, magnetic, mechanical and thermal properties, and In order to solve a series of key scientific issues of advanced functional materials and devices, a series of new ideas with independent intellectual property rights (such as macroscopic microcosmic coordination test) and new technologies (such as multi-function scanning probe excitation and multi-field) are formed. Atomic Force Microscopy (SAM) loading, new methods (such as cross-scale experimental testing, data acquisition, and computational simulations) and new discoveries (such as photovoltaic, thermoelectric, magnetoelectric multifield physical properties and coupling mechanisms), promote nanotechnology, high speed, low energy consumption Development of industries and fields such as information processing and storage, microelectronic devices, high-efficiency clean energy, and precision instruments
Representatives of the High Technology Research and Development Center of the Ministry of Science and Technology put forward requirements for the implementation and management of the project, emphasizing the basic principles of “re-establishment, heavy process, and re-acceptance†for the key special projects of nanotechnology, and require that the project undertaker and researchers enhance the sense of responsibility and mission. , Strengthen project organization and implementation, strengthen exchanges between topics, base on the development frontier of subject areas, and strive to achieve original breakthroughs in major scientific issues and key technical issues.
The project leader, Professor Li Jiangyu, introduced the overall situation of the project. The responsible persons of the project introduced in detail the specific research objectives, implementation plans, research difficulties, how to break through, and the next steps of the project. The project consultants give guidance on the research objectives, research contents, and technical solutions of the project, and provide guidance and suggestions on the implementation and management of the project. They hope to develop nanometer measurement and control with multi-function scanning probes with independent intellectual property rights. Technology provides powerful tools for the research of advanced functional materials and devices.
(Original title: "Measurement and Regulation of Physical Properties and Transport Properties at Multi-scale on the Nanoscale Project" Launched)
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