Faculty
Location:Faculty&Staff > Faculty
HUANG Zhenghong

School of Materials Science & Engineering
Tsinghua University, Beijing 100084, China 
Professor , PhD
Tel : 010-62773752
Fax : 010-62771160
E-mail : zhhuang@tsinghua.edu.cn


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Education Background

2002, Ph. D., Tsinghua University, China
1995, M. S., Zhejiang University, China
1992, B. S., Wuhan University of Technology, China


Work Resume

2017-, Professor, Tsinghua University
2005-2016, Associate Professor, Tsinghua University
2004-2005, Assistant Professor, Tsinghua University
2002-2004, Post doctor, Tsinghua University
2004.1-2004.3, Post doctor, Aichi Institute of Technology, Japan,
1995-1998, Engineer, Central Iron & Steel Research Institute


Research Field

Dr Huang's research interests are focused on carbon materials related to environmental protection and energy issues, including

(1) new carbon materials;
(2) adsorbents and photocatalyst for removing gaseous and aqueous contaminants;
(3) carbon materials for electrodes of lithium-ion batteries and supercapacitors.

Academic Achievements

【selected publications】
1 Huang ZH*, Yang ZY, Kang FY, Inagaki M. Carbon electrodes for capacitive deionization. J. Mater. Chem. A, 2017, 5, 470-496 (review)
2 Liang QH, Li Z, Yu XL, Huang ZH*, Kang FY, Yang QH*. Macroscopic 3D porous graphitic carbon nitride monolith for enhanced photocatalytic hydrogen evolution. Advanced Materials, 2015, 27(31): 4634-4639
3 Liang QH, Li Z, Huang ZH*, Kang FY, Yang QH*. Holey graphitic carbon nitride nanosheets with carbon vacancies for highly improved photocatalytic hydrogen production. Advanced Functional Materials, 2015, 25(44): 6885-6892
4 Yu XL, Zhan CZ, Lv RT, Bai Y, Lin YX, Huang ZH*, Shen WC, Qiu XP, Kang FY*. Ultrahigh-rate and high-density lithium-ion capacitors through hybriding nitrogen-enriched hierarchical porous carbon cathode with prelithiated microcrystalline graphite anode. Nano Energy, 2015, 15: 43–53
5 Guo ZY, Wang MX, Huang ZH*, Kang FY*. Preparation of graphene/carbon hybrid nanofibers and their performance for NO oxidation. Carbon, 2015, 87: 282-291
6 Ye L, Liang QH, Lei Y, Yu XL, Han CP, Shen WC, Huang ZH*, Kang FY, Yang QH*. A high performance Li-ion capacitor constructed with Li4Ti5O12/C hybrid and porous graphene macroform. Journal of Power Sources, 2015, 282: 174-178
7 Yu XL, Zhao JF, Lv RT, Liang QH, Zhan CZ, Bai Y, Lin YX, Huang ZH*, Shen WC, Kang FY*. Synthesis of nitrogen-doped carbon nanosheets with hierarchical porosity for high performance supercapacitors and lithium-sulfur batteries. Journal of Materials Chemistry A, 2015, 3: 18400-18405
8 Ye L, Liang QH, Huang ZH*, Lei Y, Zhan CZ, Bai Y, Li H, Kang FY, Yang QH*. A supercapacitor constructed with a partially graphitized porous carbon and its performance over a wide working temperature range. Journal of Materials Chemistry A, 2015, 3: 18860-18866
9 Lin YX, Huang ZH*, Yu XL, Shen WC, Zheng YP, Kang FY. Mildly expanded graphite for anode materials of lithium ion battery synthesized with perchloric acid. Electrochimica Acta, 2014, 116: 170-174
10 Nan D, Huang ZH*, Lv RT, Yang L, Wang JG, Shen WC, Lin YX, Yu XL, Ye L, Sun HY, Kang FY*. Nitrogen-enriched electrospun porous carbon nanofiber networks as high-performance freestanding electrode materials. Journal of Materials Chemistry A, 2014, 2: 19678-19684
11 Chen YZ, Huang ZH*, Yue MB, Kang FY. Integrating porphyrin nanoparticles into a 2D graphene matrix for free-standing nanohybrid films with enhanced visible-light photocatalytic activity. Nanoscale, 2014, 6: 978-985.
12 Lei Y, Huang ZH*, Yang Y, Shen WC, Zheng YP, Sun HY, Kang FY*. Porous mesocarbon microbeads with graphitic shells: constructing a high-rate, high-capacity cathode for hybrid supercapacitor. Scientific Reports, 2013, 3: 2477  DOI: 10.1038/srep02477  
13 Zhang J, Huang ZH*, Xu Y, Kang FY*. Hydrothermal synthesis of graphene/bi2wo6 composite with high adsorptivity and photoactivity for azo dyes. Journal of the American Ceramic Society, 2013, 96: 1562-1569
14 Bai Y, Huang ZH*, Kang FY*. Synthesis of reduced graphene oxide/phenolic resin-based carbon composite ultrafine fibers and their adsorption performance for volatile organic compounds and water. Journal of Materials Chemistry A, 2013, 1: 9536-9543
15 Huang ZH*, Liu GQ, Kang FY. Glucose-promoted zn-based metal-organic framework/graphene oxide composites for hydrogen sulfide removal. ACS Applied Materials & Interfaces, 2012, 4: 4942-4947. 
16 Huang ZH*, Wang M, Wang L, Kang FY. Relation between the charge efficiency of activated carbon fiber and its desalination performance. Langmuir, 2012, 28: 5079-5084.
17 Huang ZH*, Zhang FZ, Wang MX, Lv RT, Kang FY. Growth of carbon nanotubes on low-cost bamboo charcoal for Pb(II) removal from aqueous solution. Chemical Engineering Journal, 2012, 184: 193-197.
18 Shen K, Huang ZH*, Yang JH, Shen W, Kang FY. Effect of oxidative stabilization on the sintering of mesocarbon microbeads and a study of their carbonization. Carbon, 2011, 49: 3200-3211.
19 Huang ZH*, Zheng XY, Lv W, Wang M,Yang QH, Kang FY. Adsorption of lead(ii) ions from aqueous solution on low-temperature exfoliated graphene nanosheets. Langmuir, 2011, 27: 7558-7562.
20 Wang L, Wang M, Huang ZH*, Cui TX, Gui XC, Kang FY, Wang KL, Wu DH. Capacitive deionization of NaCl solutions using carbon nanotube sponge electrodes. Journal of Materials Chemistry, 2011, 21: 18295-18299.

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