Cao, male, professor, vice president and director of inorganic nonmetallic materials department, School of Materials Science and Engineering, University of Science and Technology Beijing.

Chinese name: Cao

Mbth: Wenbincao

Nationality: China.

Ethnic group: Han nationality

Occupation: teacher

Main achievements: Second Prize of Science and Technology Award of China Materials Research Society.

Representative works: nonmetallic conductive functional materials.

Title: Professor

Character experience

1988.9~ 1992.7 Northeast Institute of Technology, bachelor degree.

1992.9~ 1995.3 northeastern university, master's degree.

1995.4~ 1998.3, Ph.D. ..

Teaching and scientific research

lecture course

Undergraduate courses: physical properties of inorganic materials (compulsory), preparation technology of nano-materials (optional), and application of computers in materials science (optional).

Postgraduate course: synthesis and preparation of materials

research field

(1) semiconductor photocatalytic material;

(2) Study on industrial application of photocatalytic materials;

(3) Self-cleaning/antibacterial film material;

(4) electromagnetic wave absorbing materials;

(5) Special thermotropic phase change materials.

research direction

(1) nanometer photocatalytic material. It mainly includes the rapid hydrothermal synthesis of nano-TiO _ 2 at low temperature, doping of nano-TiO _ 2, nano-TiO _ 2 film, application of nano-TiO _ 2 in indoor air purification and sewage treatment and super-hydrophilicity of nano-TiO _ 2.

(2) New technology of synthesis and preparation of ceramic materials. It mainly includes the controllable synthesis of nano-ceramic powder, whisker and fiber, and the low-cost and environmentally-friendly synthesis technology of ceramic materials;

(3) Photonic crystal preparation technology. It mainly includes the preparation of three-dimensional photonic crystals in microwave section and the design and preparation of two-dimensional photonic crystals (microcavities).

Major achievements

project

Project 1.973, Study on negative refraction shooting structure in microwave section.

2. National Natural Science Foundation, Hydrothermal Synthesis and Doping Mechanism of Nitrogen Doped Nano-TiO _ 2.

3. New Century Excellent Talents Program Fund.

4. Large-scale preparation technology and application of high visible light active nitrogen-doped nano-titanium dioxide powder, a major project of the national "863" plan.

5. National Natural Science Foundation, Study on the Influence of Transition Metal Ion Doping on the Photocatalytic Performance of Titanium Dioxide

6. Cross-enterprise project, pilot development of indoor wall nitrogen-doped nano-titanium dioxide air purification spray.

7. Enterprise horizontal project, industrialization research of nitrogen-doped nano titanium dioxide air purification products.

Published papers

(1) Invitation Report: Cao, Preparation of Nanocrystalline Doped Titanium Dioxide Powder by Hydrothermal Method, International Symposium on Application and Design of Composite Materials, 2009 1 month 13- 16.

(2) Participated in Non-metallic Conductive Functional Materials, edited by Li Fu _, with a total of 345,000 words, and participated in the first chapter of Conductive Ceramic Materials with 50,000 words, Chemical Industry Press, Beijing, 65438+2007 10, ISBN: 978-7-50259587-6.

(3), Yi Wei, Wen, Wen, Preparation of nanocrystalline iron-doped titanium dioxide photocatalyst, Journal of Chemical Intermediates Research, in progress.

(4) Wen, Xiao, Wen, Hydrothermal Synthesis of (Fe, N) Co-doped Titanium Dioxide Powder and Its Photocatalytic Performance under Visible Light Irradiation, Journal of Chemical Intermediates Research, in progress.

(5) Xiao, Wen, Cao Wenbin, Research on photocatalytic degradation of formaldehyde by nanocrystalline titanium dioxide powder, Journal of Chemical Intermediates Research, is in progress.

(6) Rong Lianghe, Yi Wei, Wen, Preparation of Doped Titanium Dioxide Powder and Its Visible Light Antibacterial Activity, Journal of Nanotechnology, Vol.9, 1094-7, 2009.

(7) Zhao Jing, Wen Bincao, Chang Chunge, Yong Shengtan, Yan Zhan and Xing Qunfei, Research on Laser Engineering of Thick-walled Nickel-based Alloy Parts, Journal of Rapid Prototyping, Vol. 15 (1), 2009, 24-28.

(8) Wang Ziqiang, Limingli, Chanwang and Wenbincao. Journal of Applied Physics: Applied Physics, 4 1(2008):205 108.

Wang Fu, Cao Wenbin, Sun Jialin and He Rongliang. Preparation of traffic-rich powder sbycarbothermalreduction. Key engineering materials, 2008, 368-372:82 1~823.

(10) Wang Ziqiang, Limingli, Danwang, Wenbincao. Institute of Electrical and Electronics Engineers /LEOS, 2007, pp. 537-539.

Patent application

(1) Ge Changchun, Cao, et al., A method for preparing silicon carbide/carbon and boron carbide/carbon functionally graded materials, patent number: 0 1 100449.5, authorization announcement date: 06438+0 in September 2004.

② Cao,,, etc. A preparation method of nitrogen-doped anatase nanometer titanium dioxide, patent number: ZL 200510011665.3, authorization announcement date: June 20, 2007.

③ Cao,,, etc. Nitrogen-doped nano titanium dioxide modified photocatalytic coating and its preparation method, patent number: ZL 200510011793.8, authorization announcement date: September 5, 2007.

(4) Preparation method of ceramic powder material for rapid prototyping by selective laser sintering, patent number: ZL2005 100 12062.5, authorization announcement date: 2007. 12.26.

(5) Cao, Ge Changchun, Tan Yongsheng, zhangyan and Fei Qunxing (in cooperation with 625 Institute), Nickel-based alloy powder for laser sintering and its preparation method, patent number: 20051001864.4, authorization announcement date: March 2008.

(6) Cao, Ran, et al., Preparation method of anatase nano-titanium dioxide with high phase transition temperature and high specific surface area, application number: 2005 10070865.6, application date: May 20, 2005, publication date: 2005.438+00.26, publication number: CN6543.

(7) Tan Yongsheng, zhangyan, Fei Qunxing, Cao, (in cooperation with 625 Institute), Laser cladding sintering forming method of nickel-based alloy powder, application number: 2005 1007332.0, application date: June 22, 2005, and publication date: 2006.20000000/.

(8) Cao, et al., Preparation of nitrogen-doped nanometer titanium dioxide by direct heat treatment, application number: 2005 100 12297.4, application date: August 3, 2005, publication date: February 22, 2006, and publication number: CN17366.

(9) Software copyright registration: direct slicing software for rapid prototyping technology solid model, registration number: 2005SRBJ1404,2005.

(1) Cao,, et al., A preparation method of nitrogen-doped anatase nanometer titanium dioxide, patent number: 20051001665.3, authorization announcement date: June 20, 2007;

② Cao,,, etc. Nitrogen-doped nano titanium dioxide modified photocatalytic coating and its preparation method, patent number: ZL 200510011793.8, authorization announcement date: September 5, 2007;

(3) Cao, Ge Changchun, Tan Yongsheng, zhangyan, Fei Qunxing, Nickel-based alloy powder for laser sintering and its preparation method, patent number: 20051001864.4, authorization announcement date: March 5, 2008;

(4) Cao, Shao and Xu, a preparation method of visible light responsive titanium dioxide photocatalytic liquid, patent number: 201210020193.8, authorization announcement date: 2014.01.

(5) Cao, Xu and Shao, a preparation method of water-based photocatalytic spraying slurry with visible light response, application number: 20 12 10050444.7, authorization announcement date: 2014.03.26;

(6) Cao, Xu, a preparation method of titanium dioxide sol for self-cleaning glass, patent number: 20 12 10339236.9, authorization announcement date: 2014.07.23;

(7) Cao,,, etc. , a preparation method of pollution flashover insulator, the application number is 201310211312.2;

(8) Cao, Quan, Li Yao, a gas-phase photocatalytic reaction device, application number: 201310381488.2;

(9) Cao, Wang Fafa, Li Yao and Jin Haibo. A preparation method of vanadium oxide sol, application number: 201310404343.x;

(10) Cao, Kuang, A method for rapid synthesis of α-SiC micropowder at low temperature. Application number: 20121037744.6;

Winning record

(1) Design, preparation and evaluation of plasma-oriented functionally graded materials in fusion reactors, second prize of Science and Technology Award of China Materials Research Society, ranked 5th, China Materials Research Society, 2008+0 1 (08 1-04).

(2) Research and Exploration of Computer Teaching for Postgraduates in Two-year Experimental Class of Materials Science, second prize of 23rd Education and Teaching Achievement of University of Science and Technology Beijing, June 2008.

(3) Second Prize of Bilingual Teaching Evaluation of University of Science and Technology Beijing, 2007+02.

(4) Award for Excellence in Undergraduate Teaching Quality of College of Materials Science and Engineering in 2005

(5) Award for Excellence in Undergraduate Teaching Quality of College of Materials Science and Engineering in 2004

(6) Award for Excellence in Computer Network Competition for Workers of Beijing Federation of Trade Unions in 2002.

(7) The scientific and technological achievement of the Ministry of Education "Research on functionally graded materials with high temperature plasma erosion resistance", with the registration number of 360-0 1-20060493-02, ranked 4th.

(8) Beijing Science and Technology Rising Star (2003)

(9) Outstanding Talents of the Ministry of Education in the New Century (2007)

(10) outstanding talents in Beijing (20 1 1)

(1 1) Second Prize of China Building Materials Science and Technology Progress Award (20 1 1)

Academic post

(1) Member of Photocatalytic Committee of China Photosensitive Society.

(2) Editorial Committee of Materials Engineering magazine

(3) Member of American Ceramic Association