Zhou, Shan - South Dakota School of Mines and Technology - Nanoscience and Biomedical Engineering

个人简介

2022–present, Assistant Professor in Nanoscience and Biomedical Engineering, South Dakota School of Mines and Technology. 2018–2022, Postdoctoral Research Associate in Materials Science and Engineering, University of Illinois, Urbana-Champaign. Faculty hosts: Prof. Qian Chen, and Prof. Yingjie Zhang. 2018, Ph.D. degree in Chemistry from the Georgia Institute of Technology with Prof. Younan Xia. 2014, B.S. degree in Chemistry from the School of Gifted Young, University of Science and Technology of China.

研究领域

Dr. Shan Zhou is developing a Materials-Interfaces Imaging and Design Laboratory (MIDL) to explore the multidisciplinary research bridging nanoscience, biomedical engineering, analytical chemistry, and materials science, with a primary focus on the development of an in situ characterization platform with sub-nanometer resolution and high temporal resolution for the direct imaging of both native and engineered materials interfaces involved in energy applications and biological processes. Research specialties: nanoparticle synthesis and assembly, 2D materials, plasmonic metamaterials, regioselective surface chemistry control, and advanced in situ characterization techniques including electron microscopy and electrochemical-3D-atomic force microscopy.

近期论文

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Zhou, S.; Li, J.; Lu, J.; Liu, H.; Kim, J.-Y.; Kim, A; Yao, L.; Liu, C.; Qian, C.; Hood, Z.D.;Chen, W.; Gage, T.E.; Arslan, I.; Travesset, A.; Sun, K.; Kotov, N. A. and Chen, Q. “Chiral Assemblies of Pinwheel Superlattices on Substrates”, 2022, preprint:https://arxiv.org/abs/2206.13706. An, H.; Smith, J. W.; Ji, B.; Cotty, S.; Zhou, S.; Yao, L.; Kalutantirige, F. C.; Chen, W.; Ou,Z.; Su, X.; Feng, J. and Chen Q. “Mechanism and performance relevance of nanomorphogenesis in polyamide films revealed by quantitative 3D imaging and machine learning”, Science Advances 2022, 8, eabk1888. Kim, J.; Zhao, F.; Zhou, S.; Panse, K. and Zhang Y. “Spectroscopic investigation of the structure of a pyrrolidinium-based ionic liquid at electrified interfaces”, Journal of Chemical Physics, 2022, 156, 114701. Zhao, F.; Zhou, S. and Zhang, Y. “Ultrasensitive detection of hydrogen peroxide using Bi2Te3 electrochemical sensors”, ACS Applied Materials & Interfaces 2021, 13, 4761–4767. Zhou, S.*; Panse, K.*; Motevaselian, M.*; Aluru, N. and Zhang, Y. “Three-dimensional molecular mapping of ionic liquids at electrified interfaces”, ACS Nano 2020, 14, 17515–17523. Panse, K.*; Zhou, S.*and Zhang, Y. " 3D mapping of the structural transitions in wrinkled 2D membranes: Implications for reconfigurable electronics, memristors, and bio-electronic interfaces", ACS Applied Nano Materials 2019, 2, 5779–5786. Kim, A.*; Zhou, S.*; Yao, L.; Ni, S.; Luo, B.; Sing, C. E. and Chen, Q. "Tip-patched nanoprisms from formation of ligand islands", Journal of the American Chemical Society 2019, 141, 11796–11800. Zhao, X.; Pawlik, V.; Huo, D.; Zhou, S.; Yang, B. and Xia, Y. "A mechanistic study of seedmediated growth of gold rhombic dodecahedra", Journal of Physical Chemistry C 2021,125, 27394–27402. Cheng, H.; Zhou, S.; Xie, M.; Gilroy, K. D.; Zhu, Z. and Xia, Y. “Colloidal nanospheres of amorphous selenium: facile synthesis, size control, and optical properties”,ChemNanoMat 2021, 7, 620–625. Lyu, Z.; Zhu, S.; Xu, L.; Chen, Z.; Zhang, Y.; Xie, M.; Li, T.; Zhou, S.; Liu, J.; Chi, M.;Shao, M.; Mavrikakis, M. and Xia, Y. “Kinetically-controlled synthesis of Pd-Cu Janus nanocrystals with enriched surface structures and enhanced catalytic activities toward CO2 reduction”, Journal of the American Chemical Society 2021, 143, 149–162. Yang, T.-H.; Zhou, S.; Zhao, M. and Xia, Y. “Quantitative analysis of the multiple roles played by halide ions in controlling the growth patterns of palladium nanocrystals”,ChemNanoMat 2020, 6, 576–588. Xie, M.; Zhou, S.; Zhu, J.; Lyu, Z.; Chen, R. and Xia, Y. “A Quantitative analysis of the reduction kinetics involved in the synthesis of Au@Pd concave nanocubes”, Chemistry - A European Journal 2019, 25, 16379–16404. Zhou, S.; Zhao, M.; Yang, T.-H. and Xia, Y. “Decahedral nanocrystals of noble metals: synthesis, characterization, and applications”, Materials Today 2019, 22, 108–131. Lyu, Z.; Xie, M.; Edgar, A.; Zhao, M.; Qiu, J.; Zhou, S. and Xia, Y. “Facile synthesis of Au@Cu core-shell nanocubes with controllable sizes in the range of 20-30 nm and their plasmonic properties”, ACS Applied Nano Materials 2019, 2, 1533–1540. Zhou, S.*; Huo, D.*; Goines, S.; Yang, T.-H.; Lyu, Z.; Zhao, M.; Gilroy, K. D.; Wu, Y.;Hood, Z. D.; Xie, M. and Xia, Y. “Enabling complete ligand exchange on the surface of gold nanocrystals through the deposition and then etching of silver”, Journal of the American Chemical Society 2018, 140, 11898–11901. Lyu, Z.; Gilroy, K.D.; Hood, Z.D.; Zhao, M.; Zhou, S.; Liu, J. and Xia, Y. “Rational synthesis and optical properties of copper nanocrystals with a right bipyramidal shape”,Chemistry of Materials 2018, 30, 6469–6477. Wang, W.; Zhou, S.; Shen, M.; Hood, Z.D.; Xiao, K. and Xia, Y. “Facile synthesis of silver icosahedral nanocrystals with uniform and controllable sizes”, ChemNanoMat 2018, 4,1071–1077. Qian, J.; Shen, M.; Zhou, S.; Lee, C.-T.; Zhao, M.; Lyu, Z.; Hood, Z.D.; Vara, M.; Gilroy,K.D.; Wang, K. and Xia, Y. “Platinum nanocrystals with different shapes can be prepared using the same protocol to optimize their catalytic activity toward oxygen reduction”,Materials Today 2018, 21, 834–844. Huo, D.; Ding, H.; Zhou, S.; Li, J.; Tao, J.; Ma, Y. and Xia, Y. “Facile synthesis of gold trisoctahedral nanocrystals with controllable sizes and dihedral angles”, Nanoscale 2018, 10,11034–11042. Zhou, S.; Yang, T.-H.; Zhao, M. and Xia, Y. “Quantitative analysis of the reduction kinetics of a Pt(II) precursor in the context of Pt nanocrystal synthesis”, Chinese Journal of Chemical Physics (CJCP) 2018, 31, 370. Zhao, M.; Xu, L.; Vara, M.; Elnabawy, A.; Gilroy, K.; Hood, Z.; Zhou, S.; Figueroa-Cosme,L.; Chi, M.; Mavrikakis, M. and Xia, Y. “Synthesis of Ru icosahedral nanocages with a facecentered-cubic structure and evaluation of their catalytic properties”, ACS Catalysis 2018, 8, 6948–6960. Zhou, S.; Mesina, D. S.; Organt, M. A.; Yang, T.-H.; Yang, X.; Huo, D.; Zhao, M. and Xia,Y. “Site-selective growth of Ag nanocubes for sharpening their corners and edges, followed by elongation into nanobars through symmetry reduction”, Journal of Materials Chemistry C 2018, 6, 1384–1392. Yang, T.-H.; Zhou, S.; Gilroy, K. D.; Figueroa-Cosme, L.; Lee, Y.-H.; Wu, J.-M. and Xia,Y. “Autocatalytic surface reduction and its role in controlling seed-mediated growth of colloidal metal nanocrystals”, Proceeding of the National Academy of Sciences USA 2017,114, 13619–13624. Wang, H.*; Zhou, S.*; Gilroy, K.D.* ; Cai, Z and Xia, Y. “Icosahedral nanocrystals of noble metals: synthesis and applications”, Nano Today 2017, 15, 121–144. Bao, S.; Vara, M.; Yang, X.; Zhou, S.; Figueroa‐Cosme, L.; Park, J.; Luo, M.; Xie, Z. and Xia, Y. “Facile synthesis of Pd@ Pt3–4L core–shell octahedra with a clean surface and thus enhanced activity toward oxygen reduction”, ChemCatChem 2017, 9, 414–419. Yang, X.; Gilroy, K.D.; Vara, M.; Zhao, M.; Zhou, S. and Xia, Y. “Gold icosahedral nanocages: Facile synthesis, optical properties, and fragmentation under ultrasonication”,Chemical Physics Letters 2017, 683, 613–618. Yang, T.H.; Peng, H.C.; Zhou, S.; Lee, C.T.; Bao, S.; Lee, Y.H.; Wu, J.M. and Xia, Y.“Toward a quantitative understanding of the reduction pathways of a salt precursor in the synthesis of metal nanocrystals”, Nano Letters 2017, 17, 334–340. Zhou, S.; Li, J.; Gilroy, K.D.; Tao, J.; Zhu, C.; Yang, X.; Sun, X. and Xia, Y. “Facile synthesis of silver nanocubes with sharp corners and edges in an aqueous solution”, ACS Nano 2016, 10, 9861–9870. Bao, S.; Yang, X.; Luo, M.; Zhou, S.; Wang, X.; Xie, Z. and Xia, Y. “Shape-controlled synthesis of CO-free Pd nanocrystals with the use of formic acid as a reducing agent”,Chemical Communications 2016, 52, 12594–12597. Long, R.; Mao, K.; Gong, M.; Zhou, S.; Hu, J.; Zhi, M.; You, Y.; Bai, S.; Jiang, J.; Zhang,Q.; Wu, X. and Xiong, Y. “Tunable oxygen activation for catalytic organic oxidation:Schottky junction versus plasmonic effects”, Angewandte Chemie International Edition 2014, 126, 3269–3273. Long, R.; Zhou, S.; Wiley, B.J. and Xiong, Y. “Oxidative etching for controlled synthesis of metal nanocrystals: atomic addition and subtraction”, Chemical Society Reviews 2014,43, 6288–6310.