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07

2024-02

The Shanghai Institute of Ceramics has made significant progress in the study of critical thermoelectric performance.

The combination of the thermoelectric effect and critical phenomena has given rise to the field of critical electrothermal transport research. However, current understanding of its underlying physical mechanisms mostly remains at a qualitative level, or focuses only on quantitative physical models for either resistivity or the Seebeck coefficient alone. Therefore, a deeper understanding and characterization of critical electrothermal transport phenomena, along with the development of a universal model that encompasses all aspects of electrical transport, would hold significant theoretical importance and practical value for the study of critical thermoelectric effects.

2024-02-07

The Shanghai Institute of Ceramics has made significant progress in the study of critical thermoelectric performance.

08

2024-01

The Shanghai Institute of Ceramics has made significant progress in the research of inorganic plastic thermoelectric materials.

Recently, Researcher Qiu Pengfei, Researcher Shi Xun, and Researcher Chen Lidong from the Shanghai Institute of Ceramics, in collaboration with Associate Professor Zhao Kunpeng from Shanghai Jiao Tong University, discovered that a pseudo-binary solid solution of Ag2Se-Ag2S exhibits a morphotropic phase boundary (MPB) similar to that found in PZT ferroelectric materials. By precisely controlling the phase structure near the MPB, they simultaneously achieved both excellent plasticity and high thermoelectric performance. The power factor and thermoelectric figure of merit reached 22 μWcm⁻¹K⁻² and 0.61, respectively—both significantly higher than those reported for previously known inorganic plastic thermoelectric materials.

2024-01-08

The Shanghai Institute of Ceramics has made significant progress in the research of inorganic plastic thermoelectric materials.

20

2023-09

The Zhejiang Provincial Government Office in Shanghai conducts a research visit to the Shanghai Institute of Ceramics, CASBOSON.

On September 14, Shao Genbao, Party Secretary and Director of the Zhejiang Provincial Government Office in Shanghai, Wu Zhifang, a member of the Party Leadership Group and Director of the Office, and Li Jing, Director of the Yangtze River Delta Liaison and Cooperation Division of the Office, visited the Shanghai Institute of Ceramics, Chinese Academy of Sciences.

2023-09-20

The Zhejiang Provincial Government Office in Shanghai conducts a research visit to the Shanghai Institute of Ceramics, CASBOSON.

25

2023-01

The Shanghai Institute of Ceramics held the "2022 Exchange and Sharing Meeting for Enterprises Held by Xikasi Enterprise Management Company"

On the afternoon of January 12, the Shanghai Institute of Ceramics, Chinese Academy of Sciences, held the "2022 Annual Exchange and Sharing Meeting for Enterprises Held by Xikasi Enterprise Management Company." Wu Chengtie, Deputy Director of the Shanghai Institute of Ceramics; Han Jinduo, Director of the Science and Technology Industry Division; members of the Institute's Management Office; senior executives of the holding enterprises; heads of relevant technical teams; and personnel from Xikasi Enterprise Management Company attended the meeting in a hybrid online-and-offline format. The meeting featured sharing sessions and guidance provided by Jia Jian, Chairman of Desilike Fluorine Company; Li Fei, Chairman of Zhejiang Boshiang Company; relevant officials from the holding companies; and Yan Yan, legal counsel of the enterprise management company. Ma Jiping, General Manager of Xikasi Enterprise Management Company, delivered a keynote report. The meeting was chaired by Xue Yan, Deputy General Manager and Chief Financial Officer of Xikasi Enterprise Management Company.

2023-01-25

The Shanghai Institute of Ceramics held the "2022 Exchange and Sharing Meeting for Enterprises Held by Xikasi Enterprise Management Company"

20

2020-10

The Shanghai Institute of Ceramics has made new progress in the research of organic thermoelectric materials.

Organic polymer thermoelectric materials are an emerging class of clean-energy materials that can directly convert heat into electricity. These materials are solution-processable, lightweight, inexpensive, and exhibit excellent flexibility, making them promising for applications in wearable electronic devices. Compared to inorganic thermoelectric materials, polymer thermoelectric materials suffer from a limited variety and low thermoelectric conversion efficiency, primarily due to the lack of a deep understanding of the relationship between molecular structure and thermoelectric performance.

2020-10-20

The Shanghai Institute of Ceramics has made new progress in the research of organic thermoelectric materials.

21

2020-09

The Shanghai Institute of Ceramics has made progress in the research of thermoelectric devices.

Thermoelectric power generation devices utilize the Seebeck effect of semiconductor materials to directly convert thermal energy into electrical energy, and can be applied in fields such as specialized space power sources and industrial waste heat recovery. In practical applications, conversion efficiency and power density are crucial technical indicators for thermoelectric power generation system design. For a long time, research on thermoelectric devices has focused on maximizing device energy conversion efficiency, while another key performance parameter—power density—has been largely overlooked. Developing thermoelectric power generation devices that simultaneously boast both high conversion efficiency and high power density—the so-called “dual-high” devices—has become a critical step toward advancing the practical application of thermoelectric power generation technology.

2020-09-21

The Shanghai Institute of Ceramics has made progress in the research of thermoelectric devices.
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