Title
Professor
√ Doctoral Supervisor □ Master's Supervisor
Colleges and Majors
College of Mechanical and Vehicle Laser Micro-Nano Processing
Office Address
Room 427-2, Building 1, Beijing Institute of Technology
post 100081
Office Phone
010-68910095
By mail
qiancheng@bit.edu.cn

代表论文:
[1] Cheng, Q.;#* Jin, T.;# Miao, Y.;# Liu, Z.; Borovilas, J.; Zhang, H.; Liu, S.; Kim, S.-Y.; Zhang, R.; Wang, H.; Min, W.* and Yang, Y.*. Stabilizing lithium plating in polymer electrolytes by concentration-polarization-induced phase transformation. Joule 2022, 6 (10), 2372-2389.
[2] Cheng, Q.;# Wei, L.;# Liu, Z.; Ni, N.; Sang, Z.; Zhu, B.; Xu, W.; Chen, M.; Miao, Y.; Chen, L.-Q.; Min, W.* and Yang, Y.*. Operando and three-dimensional visualization of anion depletion and lithium growth by stimulated Raman scattering microscopy. Nature communications 2018, 9 (1), 2942. (Top 50 Most read paper)
[3] Cheng, Q.;# Miao, Y.;# Wild, J.; Min, W.* and Yang, Y.* Emerging applications of stimulated Raman scattering microscopy in materials science. Matter 2021, 4 (5), 1460-1483.
[4] Cheng, Q.;# Li, A.;# Li, N.;# Li, S.; Zangiabadi, A.; Huang, W.; Li, A. C.; Jin, T.; Song, Q.; Xu, W.; Yan, K.* and Yang, Y.*. Stabilizing solid electrolyte-anode interface in Li-metal batteries by boron nitride-based nanocomposite coating. Joule 2019, 3 (6), 1510-1522.
[5] Cheng, Q.;# Xu, W.;# Qin, S.; Das, S.; Jin, T.; Li, A.; Li, A. C.; Qie, B.; Yao, P.; Zhai, H. and Yang, Y.* Full dissolution of the whole lithium sulfide family (Li2S8 to Li2S) in a safe eutectic solvent for rechargeable lithium–sulfur batteries. Angewandte Chemie 2019, 131 (17), 5613-5617.
[6] Jin, Z.;# Cheng, Q.;# Bao, S. T.; Zhang, R.; Evans, A. M.; Ng, F.; Xu, Y.; Steigerwald, M. L.; McDermott, A. E.; Yang, Y.* and Nuckolls, C.* Iterative synthesis of contorted macromolecular ladders for fast-charging and long-life lithium batteries. Journal of the American Chemical Society 2022, 144 (30), 13973-13980.
[7] Jin, Z.;# Cheng, Q.;# Evans, A. M.; Gray, J.; Zhang, R.; Bao, S. T.; Wei, F.; Venkataraman, L.; Yang, Y.;* Nuckolls, C.* π-Conjugated redox-active two-dimensional polymers as organic cathode materials. Chemical science 2022, 13 (12), 3533-3538.
[8] Cheng, Q.; Song, Z.; Ma, T.; Smith, B. B.; Tang, R.; Yu, H.; Jiang, H.; Chan, C. K.* Folding paper-based lithium-ion batteries for higher areal energy densities. Nano letters 2013, 13 (10), 4969-4974.
[9] Cheng, Q.; Wang, C.; Doudrick, K.; Chan, C. K.* Hexavalent chromium removal using metal oxide photocatalysts. Applied Catalysis B: Environmental 2015, 176, 740-748.
[10] Cheng, Q.; Yang, T.; Li, Y.; Li, M.; Chan, C. K.* Oxidation–reduction assisted exfoliation of LiCoO2 into nanosheets and reassembly into functional Li-ion battery cathodes. Journal of Materials Chemistry A 2016, 4 (18), 6902-6910.
[11] Cheng, Q.; Benipal, M. K.; Liu, Q.; Wang, X.; Crozier, P. A.; Chan, C. K.*; Nemanich, R.* J. Al2O3 and SiO2 atomic layer deposition layers on ZnO photoanodes and degradation mechanisms. ACS applied materials & interfaces 2017, 9 (19), 16138-16147.
[12] Cheng, Q.; Peng, X.; Chan, C. K.* Structural and Photoelectrochemical Evaluation of Nanotextured Sn‐Doped AgInS2 Films Prepared by Spray Pyrolysis. ChemSusChem 2013, 6 (1), 102-109.
[13] Cheng, Q.; Yang, T.; Li, M.; Chan, C. K.* Exfoliation of LiNi1/3Mn1/3Co1/3O2 into nanosheets using electrochemical oxidation and reassembly with dialysis or flocculation. Langmuir 2017, 33 (37), 9271-9279.

His research interests are the mechanism research of energy storage devices and the manufacture and development of the next generation of energy storage devices. By understanding the underlying working principle of batteries from the microscopic characterization such as stimulated Raman microscopy, safe and high-performance materials can be developed, and finally multi-functional, multi-purpose and high-performance energy storage devices can be adapted to various environments. Explore the rapid preparation and manufacturing of new high-performance energy storage devices such as all-solid-state batteries by using lasers; Explore a new additive manufacturing method based on laser direct writing; Stimulated Raman microscopy with high spatiotemporal resolution is used to explore ion/electron interactions.

His research interests are the mechanism research of energy storage devices and the manufacture and development of the next generation of energy storage devices. By understanding the underlying working principle of batteries from the microscopic characterization such as stimulated Raman microscopy, safe and high-performance materials can be developed, and finally multi-functional, multi-purpose and high-performance energy storage devices can be adapted to various environments. Explore the rapid preparation and manufacturing of new high-performance energy storage devices such as all-solid-state batteries by using lasers; Explore a new additive manufacturing method based on laser direct writing; Stimulated Raman microscopy with high spatiotemporal resolution is used to explore ion/electron interactions.