Zeng Shaozhong, Senior Engineer

 

Profile:

Zeng Shaozhong, Doctor, Senior Engineer, graduated from Shaanxi University of Science and Technology in 2005 with a major in inorganic non-metallic materials, and received his Ph.D. from Shanghai Institute of Silicate, Chinese Academy of Sciences from 2005 to 2010 after consecutive postgraduate and doctoral studies. His main research interests include lithium batteries, lithium-sulfur batteries, silicon-carbon anode materials, porous carbon materials, supercapacitor materials, and functional polymers. He has participated in the National 863 and National Grid projects, and has been in charge of the National Youth Science Foundation and the Shenzhen Free Exploration Project. He has more than 60 patent applications, of which more than 30 patents have been granted, and has more than 20 published papers.

 

Academic Background:

September, 2005- July, 2010, Shanghai Institute of Silicate, Chinese Academy of Sciences, Physics and Chemistry of Materials, Doctor of Engineering

September, 2001- July 2005 Shaanxi University of Science and Technology, Major in Inorganic Non-metallic Materials, Bachelor of Engineering

 

Work Experience:

April 2021 - Present Shenzhen Technology University, School of New Materials and New Energy, Senior Engineer

May 2019- March 2021 Shenzhen Technology University, School of New Materials and New Energy, Research Associate

May 2018- May 2019 Shenzhen Technology University, School of Chemical Engineering, Researcher

December 2015- April 2018 Shenzhen University, School of Materials, Postdoctoral Fellow

July 2010- November 2015 Chery Automobile Company Limited, Institute of Foresight Technology, Postdoctoral/Project Manager

 

Major Honors:

Selected as a Wuhu Innovation and Entrepreneurial Talent in 2011

 

Research Interests:

1. Silicon and carbon cathode materials to solve the problem of low cycle life due to volume expansion of silicon cathode

2. Lithium-sulfur battery cathode materials, to alleviate the problems caused by lithium polysulfide dissolution

 

Research Projects:

1. National Natural Science Foundation of China (NSFC), Shape control of lithium polysulfide composite conductive carbon matrix and its lithium-sulfur battery (RMB 200,000), January 2018- December 2020, principal investigator

2. Shenzhen Basic Research Free Exploration Project, Composite materials of carbon nanoribbons and polysulfide polymers and its ultra-high rate lithium-sulfur battery (RMB 300,000), April 2018- March 2020, principal investigator.

 

Representative Papers:

1. Shaozhong Zeng, Jizhao Zou et al, Facile and Tailored Synthesis of Ultrahigh-Surface-Area Clews of Carbon Nanobelts for High-Rate Lithium-Sulfur Batteries,J. Mater. Chem. A, 2017, 5, 23209 - 23220.

2. Shaozhong Zeng, Jizhao Zou et al, A composite of hollow carbon nanospheres and sulfur-rich polymers for lithium-sulfur batteries.Journal of power source357 (2017)11-18.

3. Shaozhong Zeng, Jizhao Zou et al,A universal strategy to prepare sulfur-containing polymer composites with desired morphologies for lithium-sulfur batteries.ACS appl. Mater. Interfaces2018, 10, 22002-22012.

4. Shaozhong Zeng, Yuechao Yao, Jizhao Zou et al, Facile synthesis of hollow carbon nanospheres with ultrahigh surface area and their application in lithium-sulfur batteries,Chemistry—A European Journal24(2018)1988-1997.

5. Shaozhong Zeng, Jizhao Zou et al, The formation mechanisms of porous silicon prepared from dense silicon monoxide.RSC Advances7 (2017) 7990-7995.

6. Shaozhong Zeng, Jianlin Shi et al, High-Modulus All-carbon Ladder Polymer of Hydroquinone and Formaldehyde that Bridges the Gap between Single Strand Polymers and Graphene Nanoribbons.RSC Advances4 (2014) 18676-18682.

7. Shaozhong Zeng, Jianlin Shi et al, Facile Synthesis of Nanoporous Hydroquinone/Catechol Formaldehyde Resins and their Highly Selective, Efficient and Regenerate Reactive Adsorption for Gold Ions.Macromolecular Chemistry and Physics211 (2010) Issue 8, 845-853.

8. Shaozhong Zeng, Jianlin Shi et al, Facile one-pot synthesis of nanoporous hypercrosslinked hydroxybenzene formaldehyde resins with high surface area and adjustable pore texture.Microporous and Mesoporous Materials131(2010) 141-147.

9. Shaozhong Zeng, Jianlin Shi et al, In situ Self-Assembly of Zigzag Polyimide Chains to Crystalline Branched Supramolecular Structures with High Surface Area.Macromolecular Chemistry and Physics211 (2010) Issue 6, 698-705.

10. Shaozhong Zeng, Jianlin Shi et al, Template-free synthesis of crystalline polyimide spheres with radiate branches.Materials Letters64 (2010) 625-627.Wei Lin, Chen Zhang, Wen Xu, Yuyu Cheng,Pengfei Li,*Wenjun Li.* Organocatalytic asymmetric Michael addition of rhodanines to azadienes for assembling of sulfur-containing tetrasubstituted carbon stereocenters. Adv. Synth. Catal., 361 (2019) 361, 476–480.

 

Representative Patents:

[1] Zou Jizhao, Zeng Shaozhong, Zeng Xie Rong. Porous silicon composite anode material and its preparation method, and lithium-ion battery [P]. CN106129347B,2019-05-10.

[2] Zeng Shaozhong, Zhao Zhigang, Wang Xiutian, Chen Xiaohua. A lithium iron borate cathode material for lithium-ion batteries and its preparation method [P]. CN106450301B,2019-02-22.

[3] Zou Jizhao, Zeng Shaozhong, Zeng Xie Rong, Yu Xiangyong, Cheng Biao, Liu Chang, Wu Hongliang. Negative electrode for battery and its preparation method, and lithium-ion battery [P]. CN105762364B,2019-01-25.

[4] Zeng Shaozhong, Wang Xiutian, Hai Bin. A method for the preparation of cathode materials for lithium-ion batteries, and lithium-ion batteries [P]. CN105047897A,2015-11-11.

[5] Zeng Shaozhong, Wang Xiutian, Hai Bin. A method for the preparation of highly conductive porous carbon materials for supercapacitors[P]. CN105000544A,2015-10-28.

[6] Zeng Shaozhong, Wang Xiutian, Zhao Zhigang, Chen Xiaohua. Lithium-sulfur battery cathode material and its preparation method [P]. CN104835966A,2015-08-12.

[7] Zeng Shaozhong, Wang Xiutian, Zhao Zhigang. A method for the preparation of sulfur-containing cathode material with a high specific capacity and its application[P]. CN104821394A,2015-08-05.

[8] Zeng Shaozhong, Zhao Zhigang, Wang Xiutian, Yin Shanhui, Chen Xiaohua. A method for the preparation of composite anode materials for lithium-ion batteries, anode materials and batteries [P]. CN104701500A,2015-06-10

[9] Zeng Shaozhong, Zhao Zhigang, Wang Xiutian, Yin Shanhui, Chen Xiaohua. A cathode material for lithium-ion battery and its preparation method, lithium-ion battery [P]. CN104701502A,2015-06-10.

[10] Zeng Shaozhong, Zhao Zhigang, Wang Xiutian, Yin Shanhui. Anode materials for lithium-ion batteries and their preparation process, lithium-ion batteries [P]. CN104701509A,2015-06-10.

[11] Zeng Shaozhong, Wang Xiutian, Zhao Zhigang, Chen Xiaohua. Hollow porous micron-sized silicon spheres, silicon-based anode materials, and method for the preparation of lithium-ion batteries [P]. CN104538585A,2015-04-22.

[12] Zhao Zhigang, Zeng Shaozhong, Wang Xiutian, Yin Shanhui. A cathode material for lithium-ion battery and its preparation method, lithium-ion battery [P]. CN104425806A, 2015-03-18.

[13] Wang Xiutian, Zeng Shaozhong, Zhao Zhigang, Chen Xiaohua. A silicon-based cathode material and its preparation method and application [P]. CN104332594A, 2015-02-04.

[14] Wang Xiutian, Zeng Shaozhong, Zhao Zhigang, Chen Xiaohua. A silicon-based negative electrode material and its method [P]. CN104112847A, 2014-10-22.

[15] Zeng Shaozhong, Wang Xiutian, Zhao Zhigang, Chen Xiaohua. A carbon nanoribbon with high specific surface area and its preparation method[P]. CN103950915A, 2014-07-30.

[16] Zeng Shaozhong, Wang Xiutian, Zhao Zhigang, Chen Xiaohua. A high-strength polymer nanoribbon and its preparation method[P]. CN103709378A, 2014-04-09.

[17] Zeng Shaozhong, Zhao Zhigang, Yin Shanhui, Wang Xiutian, Hu Deyan, Chen Xiuhua. Silicon-carbon composite materials and their preparation methods, lithium-ion batteries [P]. CN103367726A, 2013-10-23.

[18] Zeng Shaozhong, Zhao Zhigang, Chen Xiaohua, Yin Shanhui. A silicon-carbon composite material and its preparation method, lithium-ion battery [P]. CN103346303A, 2013-10-09.

[19] Zeng Shaozhong, Zhao Zhigang, Yin Shanhui, Chen Xiaohua. A silicon-carbon composite material and its preparation method, lithium-ion battery[P]. CN103236525A, 2013-08-07.

[20] Zeng Shaozhong, Zhao Zhigang, Chen Xiaohua. A silicon-carbon composite material, its preparation method, and lithium-ion battery containing the material[P]. CN103107317A, 2013-05-15.

[21] Zeng Shaozhong, Qu Yaohui, Zhao Zhigang, Yin Shanhui. Silicon-carbon composites and their preparation methods, lithium-ion batteries [P]. CN102983313A, 2013-03-20.

[22] Zeng Shaozhong, Zhao Zhigang, Chen Xiaohua. An amorphous porous silicon, its preparation method, and lithium-ion battery containing this material[P]. CN102969488A, 2013-03-13.

[23] Zeng Shaozhong, Zhao Zhigang, Yin Shanhui. A silicon-carbon composite material, its preparation method, and lithium-ion battery containing the material [P]. CN102969489A, 2013-03-13.

[24] Zeng Shaozhong, Zhao Zhigang, Qu Yaohui, Yin Shanhui. Silicon-carbon composite material and its preparation method, lithium-ion battery containing this material[P]. CN102694155A, 2012-09-26.

[25] Zeng Shaozhong. A high specific capacity silicon-carbon composite material and its preparation method, lithium-ion battery anode material and lithium-ion battery [P]. CN102522534A, 2012-06-27.

[26] Zeng Shaozhong, Zhu Guangyan. A silicon-carbon composite material, its preparation method and anode material and lithium-ion battery containing the silicon-carbon composite material[P]. CN102447112A, 2012-05-09.

[27] Zeng Shaozhong, Shi Jianlin. Hydrophilic porous phenolic resin and its preparation method and application[P]. CN101693757A 2010-04-14.

 

Contact Information:

E-mail: zengshaozhong@sztu.edu.cn