亚美体育app

DENG Zhao


Professor at Department of energy,soochow university

principal investigator at Soochow Institute for Energy and Material Innovations(SIEMIS)

688 Moye Road, Suzhou, PR China 215006

zdeng@suda.edu.cn; (86)-18915539299; https://orcid.org/0000-0002-0008-5759  


Curriculum Vitae

Zhao Deng received his bachelor and master degree in chemical engineering from Shanghai Jiao Tong University, and his Ph. D in ****ytical chemistry from University of California, Davis, under the supervision of Prof. Gang-yu Liu. After graduation, he worked as a research associate in the Center for Nanoscale Science and Technology (CNST) at National Institute of Science and Technology (NIST). Before joined Soochow University as a full professor in 2016, he had worked in the Oil & Gas industry for about 5 years in the United States, serving as senior scientist in companies including Halliburton and Afton Chemical Corporation. His current research interests include photo and electro-catalysis of energy and environment relevant **all molecules, in-situ characterization of electrode processes, wearable energy storage solutions. He is also the appointed professor of Jiangsu province and team leader of the Jiangsu Dual Innovation Program.

亚美体育app:Professional Experience

亚美体育app:Professor, Soochow University, Suzhou, Jiangsu Province, China2016-present

亚美体育app:

亚美体育app:Principal Scientist, Afton Chemical Corporation, Richmond, VA, USA2015-2016

亚美体育app:Senior Scientist, Halliburton Company, Houston, TX, USA2013-2015

亚美体育app:Scientist III, Houghton International Inc., Valley Forge, PA, USA2012-2013

亚美体育app:Research Associate, National Institute of Standards and Technology (NIST), Gather**urg, MD, USA2009-2012

亚美体育app:Teacher, Shanghai Jiao Tong University, Shanghai, China2002-2003

 

亚美体育app:Education

亚美体育app:PhD, Analytical Chemistry, University of California, Davis2003-2009

亚美体育app:MS, Applied Chemistry, Shanghai Jiao Tong University, China1999-2002

亚美体育app:BEng, Chemical Engineering, Shanghai Jiao Tong University, China1995-1999

 

亚美体育app:Honors & Awards

Team Leader of Dual Innovations Plan, Jiangsu Province, 2019

Appointed professor of Jiangsu Province, 2018

Travel award, the 237th ACS National Meeting & Exposition, March, 2009

Tyco electronics foundation fellowship in functional materials, Tyco Electronics Foundation, 2006

 

亚美体育app:Selected Publications and Patents

Energy Storage

1) Ma, Y.; Wei, L.; Gu, Y. T.; Hu, J. P.; Chen, Y. J.; Qi, P. W.; Zhao, X. H.; Peng, Y.; Liu, Z. F.; Deng, Z*. “High‐Performance Li-O2 Batteries Based on All‐Graphene Backbone”; Advanced Functional Materials, 2007218 (2020).

2) Chen, Y. J.; Liu, S. Y.; Yuan, X. T.; Hu, X. C.; Ye, W. Q.; Razzaq, A. A.; Lian, Y. B.; Chen, M. Z.; Peng, Y.; Choi, J. H*.; Ahn, J. H.; Zhao, X. H*.; Deng, Z*. “rGO-CNT aerogel embedding iron phosphide nanocubes for high-performance Li-polysulfide batteries”; Carbon, 167, 446-454 (2020).

3) Hu, J.; Yuan, X.; Wang, C.; Shao, X.; Yang, B.; Abdul Razzaq, A.; Zhao, X*.;  Lian, Y.; Chen, M.; Deng, Z*.; Peng, Y*. “Self-Phosphorization of MOF-Armored Microbes for Advanced Energy Storage”; Small, 16, e2000755 (2020).

4) Yang, C.; Li, Y.; Zhang, B.; Lian, Y.; Ma, Y.; Zhao, X.; Zeng, X.; Li, J.; Deng, Z.*; Ye, J.; Wu, W.; Peng, Y.* “Nitrogen-doped carbon fibers embedding CoOx nanoframes towards wearable energy storage”; Nanoscale, 12, 8922-8933 (2020).

5) Ma, Y.; Jing, Y.; Gu, Y.; Qi, P.; Lian, Y.; Yang, C.; Lian, Y.; Razzaq, A.; Zhao, X.; Peng, Y.; Zeng, X.; Li, J.; Deng, Z.* “Redox-Driven Lithium Perfusion to Fabricate Li@Ni–Foam Composites for High Lithium-Loading 3D Anodes”; ACS Appl. Mater. Interfaces, 12, 9355-9364 (2020).

6) Abdul Razzaq, A.; Yuan, X.; Chen, Y.; Hu, J.; Mu, Q.; Ma, Y.; Zhao, X.*; Miao, L.; Ahn, J.-H.; Peng, Y.; Deng, Z.* “Anchoring MOF-derived CoS2 on sulfurized polyacrylonitrile nanofibers for high areal capacity lithium-sulfur batteries”; J. Mater. Chem. A, 8, 1298-1306 (2020).

7) Ma, Y.; Gu, Y.; Yao, Y.; Jin, H.; Zhao, X.; Yuan, X.; Lian, Y.; Qi, P.; Shah, R.; Peng, Y.; Deng, Z.* “Alkaliphilic Cu2O nanowires on copper foam for hosting Li/Na as ultrastable alkali-metal anodes”; J. Mater. Chem. A, 7, 20926 (2020).

8) Yang C.; Yao Y.; Lian Y.; Chen Y.; Shah R.; Zhao X.*; Chen M.; Peng Y.*; Deng Z.* “A double-buffering strategy to boost the lithium storage of botryoid MnOx/C anodes”; Small, 15, 1900015 (2019).

9) Yao, Y.; Zhao, X.; Razzaq, A.; Gu, Y.; Yuan, X.; Shah, R.; Lian, Y.; Lei, J.; Mu, Q.; Ma, Y.; Peng, Y.; Deng, Z.*; Liu, Z. “Mosaic rGO layers on lithium metal anodes for the effective mediation of lithium plating and stripping”; Journal of Materials Chemistry A, 7, 12214-12224 (2019).

10) Abdul Razzaq, A.; Yao, Y.; Shah, R.; Qi, P.; Miao, L.; Chen, M.; Zhao, X.*; Peng, Y.; Deng, Z.* “High-performance lithium sulfur batteries enabled by a synergy between sulfur and carbon nanotubes”; Energy Storage Materials, 16, 194-202 (2019).

11) Chen, Y.; Zhao, X.*; Liu, Y.; Razzaq, A. A.; Haridas, A. K.; Cho, K.-K.; Peng, Y.; Deng, Z.*; Ahn, J.-H.* “γ-Fe2O3 nanoparticles aligned in porous carbon nanofibers towards long life-span lithium ion batteries”; Electrochimica Acta, 289, 264-271 (2018).

12) Shah, R.; Gu, J.-Y.; Razzaq, A. A.; Zhao, X.; Shen, X.-W.; Miao, L.; Yan, C.-L.; Peng, Y.*; Deng, Z.* “Freestanding Electrode Pairs with High Areal Density Fabricated under High Pressure and High Temperature for Flexible Lithium Ion Batteries”; ACS Applied Energy Materials, 1, 3171-3179 (2018).

 

Photo & Electro Catalysis

13) Xiong, L.; Zhang, X.; Yuan, H.; Wang, J.; Yuan, X.; Lian, Y.; Jin, H.; Sun, H.; Wang, D.; Hu, J.; Deng, Z.*; Hu, H.; Choi, J.; Li, J.; Chen, Y.; Guo, J.; Rummerli, M. H.; Zhong, J*.; Xu, L*.; Peng, Y*. “Breaking Linear Scaling Relationship by Compositional and Structural Crafting of Ternary Cu-Au/Ag Nanoframes for Electrocatalytic Ethylene Production”; Angewandte Chemie, (2020).

14) Xiong, L.; Sun, Z.; Zhang, X.; Zhao, L.; Huang, P.; Chen, X.; Jin, H.; Sun, H.; Lian, Y.; Deng, Z.*; Rummerli, M. H.; Yin, W.*; Zhang, D.; Wang, S.; Peng, Y*. “Octahedral gold-silver nanoframes with rich crystalline defects for efficient methanol oxidation manifesting a CO-promoting effect”; Nature Communications, 10, 3782 (2019).

15) Sun, H.; Min, Y.; Yang, W.; Lian, Y.; Lin, L.; Feng, K.; Deng, Z.*; Chen, M.; Zhong, J.; Xu, L.*; Peng, Y*. “Morphological and Electronic Tuning of Ni2P through Iron Doping toward Highly Efficient Water Splitting”; ACS Catalysis, 9, 8882-8892 (2019).

16) Gu, Y.; Yan, G.; Lian, Y.; Qi, P.; Mu, Q.; Zhang, C.; Deng, Z.*; Peng. Y.* “MnIII-enriched α-MnO2 nanowires as efficient bifunctional oxygen catalysts for rechargeable Zn-air batteries”; Energy Storage Materials, 23, 252-260, (2019).

17) Lian, Y.; Sun, H.; Wang, X.; Qi, P.; Mu, Q.; Chen, Y.; Ye, J.; Zhao, X.; Deng, Z.*; Peng, Y.* “Carved nanoframes of cobalt–iron bimetal phosphide as a bifunctional electrocatalyst for efficient overall water splitting”; Chemical Science, 10, 464-474 (2019).

18) Mu, Q.; Zhu, W.; Yan, G.; Lian, Y.; Yao, Y.; Li, Q.; Tian, Y.; Zhang, P.; Deng, Z.*; Peng, Y.* “Activity and Selectivity Regulation through the Dimension of Cobalt Active Sites in Photocatalytic CO2 Reduction”; Journal of Materials Chemistry A, 6, 21110-21119 (2018).

19) Sun, H.; Lian, Y.; Yang, C.; Xiong, L.; Qi, P.; Mu, Q.; Zhao, X.; Guo, J.; Deng, Z.*; Peng, Y.* “Hierarchical Nickel-Carbon Structure Templated by Metal-Organic Frameworks for Efficient Overall Water Splitting”; Energy & Environmental Science, 11, 2363 – 2371 (2018).

20) Yan, G.; Lian, Y.; Gu, Y.; Yang, C.; Sun, H.; Mu, Q.; Li, Q.; Zhu, W.*; Zheng, X.; Chen, M.; Zhu, J.; Deng, Z.*; Peng, Y.* “Phase and Morphology Transformation of MnO2 Induced by Ionic Liquids toward Efficient Water Oxidation”; ACS Catalysis, 8, 10137-10147 (2018).

21) Zhu, W.; Zhang, C.; Li, Q.; Xiong, L.; Chen, R.; Wan, X.; Wang, Z.; Chen, W.; Deng, Z.*; Peng, Y.* “Selective reduction of CO2 by conductive MOF nanosheets as an efficient co-catalyst under visible light illumination”; Applied Catalysis B: Environmental, 238, 339-345 (2018).

 

Lubrication Engineering

22) Yang, H.; Zhao, L.; Xue, S.; Deng, Z.; Li, J.; Zeng, X.* “Branch-chain length modulated graphene oxides for regulating the physicochemical and tribophysical properties of pickering emulsions”; Colloids and Surfaces A: Physicochemical and Engineering Aspects, 579, 123703 (2019).

23) Zhao, L.; Yang, H.; Liu, C.; Xue, S.; Deng, Z.; Li, J.; Zeng, X.* “The Correlation Between Molecular Structure and Tribological Properties of Graphene Oxide with Different Oxidation Degree”; Tribology Letters, 67, 85 (2019).

24) Deng, Z.*; Livanec P. W.; Deville, J. P. “Novel water-based fluids for oil-sands drilling”; SPE Canada Heavy Oil Technical Conference 2015, 174420, 909-917 (2015).

25) Klimov, N.; Zhu, S.; Deng, Z.; Li, T.; Cannara, R. J*. “Effects of surface compliance and relaxation on the frictional properties of lamellar materials”; RSC Adv., 4, 26721-26728 (2014).

26) Deng, Z.; Klimov, N.; Xu, H.; Li, T.; Solares, S.; Cannara, R. J*. “Nanoscale interfacial friction and adhesion on supported versus suspended monolayer and multilayer graphene”; Langmuir, 29, 235-243 (2013).

27) Deng, Z.; Smolyanitsky, A.; Li, Q. Y.; Feng, X. Q.; Cannara, R. J.* “Adhesion-dependent negative friction coefficient on chemically modified graphite at the nanoscale”; Nature Materials, 11(12), 1032-1037 (2012).

28) Barkley, S.#; Deng, Z.#; Gates, R. S.; Reit**a, M. G.; Cannara, R. J*. “Quantitative comparison of two independent lateral force calibration techniques for the atomic force microscope”; Review of Scientific Instruments, 83, 023707 (2012).

29) Deng, Z.; Smolyanitsky, A.; Li, Q.; Feng, X.-Q.; Cannara, R. J*. Toward a probe-based method for determining exfoliation energies of lamellar materials”; Proceedings of the 2012 12th IEEE Conference on Nanotechnology (IEEE-NANO), 6321953 (2012).

 

Biophysical Applications of Scanning Probe Microscopy

30) Li, J. R.; Shi, L. F.; Deng, Z.; Lo, S. H.; Liu, G. Y*. “Nanostructures of Designed Geometry and Functionality Enable Regulation of Cellular Signaling Processes”; Biochemistry, 51 (30), 5876–5893 (2012).

31) Deng, Z.; Weng, I. C.; Chen, H. Y.; Liu, F. T.; Liu, G. Y*. “Engineered nanostructures of antigen provide an effective means for regulating mast cell activation”; ACS Nano, 5(11), 8672-8683 (2011).

32) Koehne J. E.; Stevens R. M.; Zink T.; Deng, Z.; Chen, H. Y.; Weng I. C.; Liu, F. T.; Liu, G. Y*.  “Using carbon nanotube probes for high-resolution three-dimensional imaging of cells”; Ultramicroscopy, 111, 1155-1162 (2011).

33) Deng, Z.; Lulevich, V.; Liu, G. Y*. “Applications of atomic force microscopy in biophysical chemistry of cells”; Journal of Physical Chemistry B, 114, 5971-5982 (2010).

34) Fleming, C. J.; Liu, Y. X.; Deng, Z.; Liu, G. Y*. “Revealing hyperfine features of dendrimers using scanning tunneling microscopy”; Journal of Physical Chemistry A, 113, 4168-4174 (2009).

35) Deng, Z.; Zink, T. R.; Chen, H. Y.; Walters, D.; Liu, F. T.; Liu, G. Y*.“Impact of actin rearrangement and degranulation on the membrane structure of primary mast cells: a combined atomic force and laser scanning confocal microscopy investigation”; Biophysical Journal, 96, 1629-1639 (2009).

36) Zink, T. R.; Deng, Z.; Chen, H. Y.; Liu, F. T.; Liu, G. Y*.  “High resolution three‐dimensional imaging of the rich membrane structures of bone marrow‐derived mast cells”; Ultramicroscopy, 109, 22-31 (2008).

 

International Patents

37) USPO:Cannara, R. J.; Sharifi, F.; Deng, Z. US8763161B2: Zero thermal expansion, low heat transfer, variable temperature sample assembly for probe microscopy (2014).

38) WIPO:Deng, Z.; Devil, J. P.; Livanec P. WO2016171655: Methods for quantifying nitrogen-containing compounds in subterranean treatment fluids (2015).


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