ZHENG, Qingbin
Assistant Professor

Education Background
PhD (The Hong Kong University of Science and Technology, Hong Kong)
Bachelor & Master (China University of Petroleum, China)

Research Field
Nanocarbon materials, Transparent conductors, Multifunctional sensors, Surfaces and interfaces of materials, Nanocomposites reinforced with nanofillers, Molecular simulations
Personal Website
https://myweb.cuhk.edu.cn/zhengqingbin
Email
zhengqingbin@cuhk.edu.cn
Biography
Prof. Zheng received his Ph.D degree from Department of Mechanical and Aerospace Engineering, The Hong Kong University of Science and Technology (HKUST) in 2011. Prior to joining The Chinese University of Hong Kong, Shenzhen (CUHKSZ) as an Assistant Professor in 2019, he held various academic positions worldwide, including Research Assistant Professor of the Department of Mechanical and Aerospace Engineering at HKUST and Alexander von Humboldt Research Fellow at Leibniz Institute of Polymer Research Dresden, Germany. Prof Zheng has received many awards including National High-Level Young Talent, Presidential Young Fellow of CUHKSZ, Fellow of the International Association of Advanced Materials, Junior Fellow of the HKUST Jockey Club Institute for Advanced Study, and Alexander von Humboldt Fellowship of Germany.
Prof. Zheng’s research focuses on advanced carbon materials, ranging from nanocomposites with graphene, carbon nanotubes, carbon nanofibers and 2D materials, to nanostructured materials for various wearable applications. He has published more than 70 peer reviewed papers in top-ranked scientific journals such as Progress in Materials Science, Materials Today, Advanced Functional Materials, ACS Nano, Small, Materials Horizons, Nanoscale Horizon, Nano-Micro Letters, and Carbon, with a total Web of Science citations of 5000+ and an H-index of 38.
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Academic Publications
Books:
Zheng Q. B., Kim J. K.?Graphene for Transparent Conductors: Synthesis,?Properties?and Applications?(ISBN 978-1-4939-2768-5). Springer, New York. 2015, pp. 220.
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Journal Papers (* corresponding author):
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Zhang Y. H., Wang W., Zhang F., Dai K., Li C. B., Fan Y., Chen G. M.*, Zheng Q. B.* (2022): Soft Organic Thermoelectric Materials: Principles, Current State of the Art and Applications. Small, DOI:10.1002/smll.202104922.
Zhang F., Ren D. H., Zhang Y. H., Huang L. Q., Sun Y. X., Wang W., Zhang Q., Feng W.*, Zheng Q. B.* (2022): Production of Highly-Oriented Graphite Monoliths with High Thermal Conductivity, Chemical Engineering Journal, 431, 134102.
Zhang Y. H., Wang W., Zhang F., Huang L. Q., Dai K., Li C. B., Sun Y. X., Ren D. H., Wu J. Y., Zheng Q. B.* (2022): Micro-diamond Assisted Bidirectional Tuning of Thermal Conductivity in Multifunctional Graphene Nanoplatelets/nanofibrillated Cellulose Films. Carbon, DOI: 10.1016/j.carbon.2021.12.067.
Zhang F., Ren D. H., Huang L. Q., Zhang Y. H., Sun Y. X., Liu D., Wang J. X., Zhang Q., Feng W.*, Zheng Q. B.* (2021): Three-Dimensional Interconnected Conductive Graphite Nanoplatelet Welded Carbon Nanotube Networks for Stretchable Conductors (This article also appears in: Hot Topic: Carbon, Graphite, and Graphene), Advanced Functional Materials, DOI:10.1002/adfm.202107082.
Zhang F., Ma P. C., Wang J. X., Zhang Q., Feng W.*, Zhu Y. W.*, Zheng Q. B.* (2021): Anisotropic conductive networks for multidimensional sensing, Materials Horizons, 8, 2615-2653.
Zhang H., Liu D., Lee J.H., Chen H. M., Kim E., Shen X.*, Zheng Q. B.*, Yang J. L.*, Kim J. K.*. (2021): Anisotropic wrinkled and crack-bridging structure for ultrasensitive, highly selective multidirectional strain sensors, Nano-Micro Letters, 13, 122.
Lee J. H., Chen H. M., Kim E., Zhang H., Wu K., Zhang H. M., Shen X. *, Zheng Q. B., Yang J. L., Jeon S., Kim J. K.* (2021): Flexible temperature sensors made of aligned electrospun carbon nanofiber films with outstanding sensitivity and selectivity towards temperature, Materials Horizons, 8, 1488-1498.
Shen X., Zheng Q. B., Kim J. K.* (2021): Rational design of two-dimensional nanofillers for three dimensional polymer nanocomposites toward multifunctional applications. Progress in Materials Science, 115, 100708.
Zheng Q. B., Lee J. H., Shen X., Chen X. D., Kim J. K.* (2020): Graphene-Based Wearable Piezoresistive Physical Sensors. Materials Today, 36, 158-179.
Chen H. M., Jing Y., Lee J. H., Liu D., Kim J. M., Chen S. S., Huang K., Shen X., Zheng Q. B.*, Yang J. L. *, Jeon S. K. *, Kim J. K. * (2020): Human Skin-Inspired Integrated Multidimensional Sensors Based on Highly Anisotropic Structures. Materials Horizons, 7, 2378-2389.
Guo F. M, Shen X., Zhou J. M., Liu D., Zheng Q. B., Yang J., Jia B., Lau A. K. T., Kim J. K.* (2020): Highly Thermally Conductive Dielectric Nanocomposites with Synergistic Alignments of Graphene and Boron Nitride Nanosheets Advanced Functional Materials, 30, 1910826.
Lee J. H., Kim J. M., Liu D., Guo F. M., Zheng Q. B.*, Jeon S. K., Kim J. K.* (2019): Highly aligned, anisotropic carbon nanofiber films for multidirectional strain sensors with exceptional selectivity. Advanced Functional Materials, 29, 1901623.
Liu X., Liu D., Lee J. H., Zheng Q. B.*, Du X.H., Zhang X. Y., Xu H. R., Wang Z. Y., Wu Y., Cui J., Mai Y. W., Kim J. K. * (2019): Spider-Web-Inspired Stretchable Graphene Woven Fabric for Highly Sensitive, Transparent, Wearable Strain Sensors. ACS Applied Materials & Interfaces, 11, 2282-2294.
Zheng Q. B., Liu X., Xu H. R., Cheung M. S., Choi Y. W., Huang H. C., Lei H. Y., Shen X., Wang Z. Y., Wu Y., Kim S. Y., Kim J. K.* (2018): Sliced Graphene Foam films for Dual-functional Wearable Strain Sensors and Switches. Nanoscale Horizons, 3, 35-44.
Wang Z. Y., Liu X., Shen X., Han N. M., Wu Y., Zheng Q. B., Jia J. J., Wang N., Kim J. K.* (2018): Ultralight graphene honeycomb sandwich for stretchable light-emitting display. Advanced Functional Materials, 28, 1707043.
Liu X., Tang C., Du X. H., Xiong S., Xi S. Y., Liu Y. F., Shen X., Zheng Q. B.*, Wang Z. Y., Wu Y., Horner A., Kim J. K.* (2017): A highly sensitive graphene woven fabric strain sensor for wearable wireless musical instrument. Materials Horizons, 4, 477-486.
Wu Y., Wang Z. Y., Liu X., Shen X., Zheng Q. B.* Xue Q., Kim J. K.* (2017) Ultralight graphene foam/conductive polymer composites for exceptional electromagnetic interference shielding. ACS Applied Materials & Interfaces, 9, 9059-9069.
Zheng Q. B., Li Y. G., Yang J. H., Kim J. K.* (2014): Graphene oxide-based transparent conductive films. Progress in Materials Science, 64, 200-247.
Zheng Q. B., Zhang B., Lin X. Y., Shen X., Yousefi N., Huang Z. D., Li Z. G., Kim J.-K.* (2012): Highly transparent and conducting ultralarge graphene oxide/singlewalled carbon nanotube hybrid films produced by Langmuir-Blodgett assembly. Journal of Materials Chemistry, 22, 25072-25082.
Lin X. Y., Shen X., Zheng Q. B., Yousefi N., Ye L., Mai Y. W., Kim J. -K.* (2012): Fabrication of highly-aligned, conductive and strong graphene papers using ultralarge graphene oxide sheets. ACS Nano, 6, 10708-10719.
Zheng Q. B., Ip W. H., Lin X. Y., Yousefi N., Yeung K. K., Li Z. G., Kim J. K.* (2011): Transparent conductive films consisting of ultra-large graphene sheets produced by Langmuir-Blodgett assembly. ACS Nano, 5, 6039-6051.
Zheng Q. B., Gudarzi M. M., Wang S. J., Geng Y., Li Z. G., Kim J. K.* (2011): Improved electrical and optical characteristics of transparent graphene thin films by acid and doping treatments. Carbon, 49, 2905-2916.
Aboutalebi S. H., Gudarzi M. M., Zheng Q. B., Kim J. K.* (2011): Spontaneous formation of liquid crystal in ultra-large graphene oxide dispersions. Advanced Functional Materials, 21, 2978-2988.
Zheng Q. B., Geng Y., Wang S. J., Li Z. G., Kim J. K.* (2010): Effects of functional groups on the mechanical and wrinkling properties of graphene sheets. Carbon, 48, 4315-4322.
Zheng Q. B., Xue Q. Z.*, Yan K. Y., Hao L. Z., Li Q., Gao X. L. (2007): Investigation of Molecular Interactions between SWNT and Polyethylene/Polypropylene/Polystyrene/Polyaniline Molecules. Journal of Physical Chemistry C, 111, 4628-4637.