Qing Fang
Cell phone: 937-***-**** Email: aczclk@r.postjobfree.com
Status: Permanent Resident Address: 2838 Cobblestone Crossing Ct, Dayton, OH 45458
I am looking for positions of product manager in materials or chemistry field, business development position in any industry and also interesting in materials scientist, materials engineer or materials process engineer position.
SKILLS SUMMARY
Ten years of experience in materials scientist and battery design
Deep expertise in materials development and electrochemistry evaluation
Successful transfer of the lab technologies to pilot scale
Experienced in materials engineering, process engineering, quality control, quality assurance and customer auditor process
Familiar with business development and product management
Extraordinary leader with great communication skills and familiar work with the international team
WORKING EXPERIENCE
Nanotek Instruments Inc. (Dayton, OH) 6/2015 – Present
Product Manager: Engineering, Production & Business Development
Lead and manage the team to optimize the design of the silicon anode materials, including designing materials structure, planning laboratory experiments, assigning the daily work and analysis of the testing results
Work with equipment vendors to run trial, design and order the scale up equipment, developed materials synthesis processing line (successfully designed the silicon/graphene automatic production line)
Coordinate a sub company in China including the technical support, financial statement monitor and business development
Attend the battery show in US, Japan and China to develop a strong professional network in order to bring in customers and to keep tracking the lithium ion battery market trend in cells and materials
Technical support for silicon anode material and lithium ion battery both internally and externally
Work with a team to design an automatic pouch cell production line in US
Create and present quarterly reports to the President of the company to update the process of the silicon anode project
Nanotek Instruments Inc. (Dayton, OH) 11/2009 – 5/2015
Materials and Battery Scientist
Silicon anode materials development and production
Design and optimize the graphene based (Silicon, Co3O4 and TiO2 et al) high capacity, high rate anode materials for lithium ion batteries
Received hands on experience in synthesizing materials by wet chemistry and solid state method, such as hydrothermal, CVD,PVD and calcination
Expert in materials design, characterize such as SEM, EDS, XRD, TEM, BET, TGA, CV, EIS and evaluate the electrochemical performance of the developed materials both in coil cell and pouch cell
Worked with powder materials research and production equipment such as inline high shear mixed, spray dryer, tub furnace, muffle furnace and rotary kiln
Gained experience in equipment set up, operating equipment and equipment maintenance
Successfully transferred the lab technologies to production, and built kilo gram per day silicon/graphene anode production lines in China and US in 2012
Advanced battery design
Expert in lithium ion battery structure and design of advance battery, knowledge in commercial cathode and anode materials electrochemical performance like NMC (111,532, 622 and 811), NCA, LCO, LFP, LMO, artificial graphite and natural graphite; experience in other lithium ion battery components such as current collector, binder, conductivity additive, electrolyte and package film
Procurement laboratory need from battery materials suppliers, battery manufactures and battery equipment manufactures in China, Japan and US, familiar with the battery materials vendor, battery manufactures and battery equipment vendor
Set up lithium ion battery assembly line which can make 5Ah pouch cell, knowledge in battery testing and results analysis
Designed high energy density pouch cells, used advanced materials such as silicon anode, NMC and NCA
Familiar with Li-S battery including design S cathode structure, lithium anode and pouch cell assembling,
Have hands-on experience in making pouch cells including mixing slurry, coating, slitting, die cutting, roll to roll processed, also welding, laminating and injecting electrolyte
Designed anode less lithium ion battery use NCA as cathode
EDUCATION
Master of Engineering, Materials Science 9/2006 – 7/2009
General Research Institute for Nonferrous Metals, Beijing, China
Bachelor of Engineering, Inorganic Nonmetal Material Engineering 9/2002 – 7/2006 Changchun University of Science and Technology, Changchun, China
PUBLICATIONS
1. Xiqing Wang, Chenguang Liu, David Neff, Pasquale F. Fulvio, Richard T Mayes, Aruna Zhamu, Qing Fang, Guorong Chen, Harry Meyer, Bor Z. Jang and Sheng Dai, Nitrogen-enriched ordered mesoporous carbons through direct pyrolysis in ammonia with enhanced capacitive performance, J. Mater. Chem. A, 2013, DOI: 10.1039/C3TA11342F
2. Aruna Zhamu, Guorong Chen, Chenguang Liu, David Neff, Qing Fang, Zhenning Yu, Wei Xiong, Yanbo Wang, Xiqing Wang and Bor Z. Jang, Reviving rechargeable lithium metal batteries: enabling next-generation high-energy and high-power cells, Energy Environ. Sci., 2012, 5, 5701-5707
3. Fang Qing, Cheng Y, Jian XuYu, Zhu Lei, Yu HaiJun, Wang Zhong, Jiang LiJun, Effects of flaky rare earth oxide additives on the high temperature performance of nickel electrodes, Journal of Rare Earths, 2010, 28: 72-78
4. Fang Qing, Xie Shouyun, Cheng Yan, Jian Xuyu, Zhu Lei, Yu Haijun, Effects of Heavy Rare Earth Element on High-Temperature Performance of Nickel-Hydroxide Electrodes, Rare Metal Materials and Engineering, 2010, 2, 258-263
5. Qing Fang, Y CHENG, S XIE, X JIAN, L ZHU,Study on the anode binders of Ni-MH battery, Chinese Journal of Power Sources 2, 032
6. Fang Qing, X Shouyun, C Yan, J Xuyu, J Lijun, Z Lei, Effects of Nanoscale Conductive Additives on High Temperature and High Power Performance of Nickel Electrodes [J]
Chinese Journal of Rare Metals 3, 017
7. X Shouyun, Fang Qing, Y CHENG, J Xuyu, ZHU Lei, W Zhong, YU Haijun, Effects of erbium added by mechanically mixture and surface coating on high temperature performances of nickel hydroxide electrode, Journal of the Chinese Rare Earth Society 5, 010
PATENTS
1. Aruna Zhamu, Jinjun Shi, Guorong Chen, Qing Fang, Bor Z Jang, Graphene-enhanced anode particulates for lithium ion batteries. Mar. 15, 2012, US 201********
2. Aruna Zhamu, Jinjun Shi, Guorong Chen, Qing Fang, Bor Z Jang, Ming C Wang: Graphite or carbon particulates for the lithium ion battery anode. Jan. 26, 2012, US 201********
3. A Zhamu, G Chen, X Wang, BZ Jang, Y Wang, Q Fang, Surface-mediated cells with high power density and high energy density, US Patent 8,895,189
4. A Zhamu, J Shi, G Chen, Q Fang, BZ Jang, MC Wang, Graphite or carbon particulates for the lithium ion battery anode, US Patent App. 12/804,413
5. G Chen, A Zhamu, X Wang, BZ Jang, Y Wang, Q Fang, Method of operating a lithium-ion cell having a high-capacity cathode, US Patent App. 13/506,324
6. G Chen, A Zhamu, X Wang, BZ Jang, Y Wang, Q Fang, Method of operating a lithium-ion cell having a high-capacity cathode, US Patent App. 13/506,324
7. Lithium-ion cell having a high-capacity anode and a high-capacity cathode
G Chen, A Zhamu, X Wang, BZ Jang, Y Wang, Q Fang, US Patent App. 13/385,561
8. A Zhamu, G Chen, X Wang, BZ Jang, Y Wang, Q Fang, Surface-mediated cell-powered portable computing devices and methods of operating same, US Patent App. 13/385,245
9. A Zhamu, G Chen, W Xiong, BZ Jang, Y Wang, Q Fang, Surface-mediated cell-driven power tools and methods of operating same, US Patent 9,085,076
10. A Zhamu, J Shi, G Chen, Q Fang, BZ Jang, Graphene-enhanced anode particulates for lithium ion batteries, US Patent App. 12/807,635
11. Q Fang, A Zhamu, BZ Jang, Process for mass-producing silicon nanowires and silicon nanowire-graphene hybrid particulates, US Patent App. 14/545,108
12. Q Fang, A Zhamu, BZ Jang, Process for producing silicon nanowires directly from silicon particles, US Patent App. 14/545,106
13. A Zhamu, G Chen, X Wang, BZ Jang, Y Wang, Q Fang, Surface-mediated cell-powered vehicles and methods of operating same, US Patent 8,914,176
14. G Chen, A Zhamu, X Wang, BZ Jang, Y Wang, Q Fang, Lithium-ion cell having a high energy density and high power density, US Patent 8,765,303
15. G Chen, Y Wang, Q Fang, BZ Jang, A Zhamu, Rechargeable dual electroplating cell, US Patent App. 13/507,057