胡适
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个人简历
学习与工作简历: 2002.09-2006.06 南京大学化学系 理学学士 导师:赵健伟教授 2006.09-2012.06 清华大学化学系 理学博士 导师:王训教授,李亚栋教授 2012.10-2013.11 北卡州立大学材料科学与工程系 博士后 导师:Dr. Linyou Cao 2013.12-2015.11 宾州州立大学机械与核能工程系 博士后 导师:Dr. Donghai Wang 2016.08-至今 天津大学化学系 研究员 课题组负责人 入选2019年度天津大学北洋青年学者,并获得国家自然科学基金、天津市自然科学基金、中国石化重大研究专项以及天津大学启动经费等多个项目的支持,累计获批经费275万元(2019年初)。研究领域
""纳米材料是结构尺寸在100纳米以下的材料的统称。受到量子限域效应的影响,此类材料的电子能带结构会出现新的变化,从而带来光声电磁等一系列物理特性的变化;而尺寸效应带来的高比表面积和大量暴露的表面原子又使得其具有更多的催化活性位点。""""近期论文
Chongyan Hao, Shi Hu,* et al. Interface-Coupling of CoFe-LDH on MXene as High-performance Oxygen Evolution Catalyst, submitted Jiannan Lin, Shi Hu,* et al. Ultrathin Nanotubes of Bi5O7I with Reduced Bandgap as High-Performance Photocatalyst, submitted Baihua Cui, Shi Hu*, et al. Heterogenization of Few-Layer MoS2 with Highly Crystalline 3D Ni3S2 Nanoframes Effectively Synergizes the Electrocatalytic Hydrogen Generation in Alkaline Medium, submitted Pengjian Wang, Shi Hu,* et al. Ultrafine Nanoparticles of W-Doped SnO2 for Durable H2S Sensor with Fast Response and Recovery, submitted Zhang Y., Zhao H., Zhao X., Lin J., Li N., Huo Z., Yan Z., Zhang M.* and Hu S.* Narrow-Bandgap Nb2O5 Nanowires with Enclosed Pores as High-Performance Photocatalyst, Science China Materials, Accepted, doi:10.1007/s40843-018-9308-7 (*Corresponding Author) Zhao Y., Sun B., Zhang S., Wang L., Gao X., Liu Q., Mu S., Zhang M., Hu S.* and Huo Z.* A general method for ultrathin 1D oxide nanomaterials, Nanoscale, 9, 12830-12834 (2017) (*Corresponding Author) Hu S.#, Li H. #, Liu H., He P. and Wang X. Nanocrystals of Uranium Oxide: Controlled Synthesis and Enhanced Electrochemical Performance of Hydrogen Evolution by Ce-doping, Small, 11, 2624-2630 (2015). (#equal contribution) Yu, Y.#, Hu, S.#, Su, L.#, Huang, L., Liu, Y., Jin, Z., Purezky, A. A., Geohegan, D. B., Kim, K. W., Zhang, Y. and Cao, L. Equally Efficient Interlayer Exciton Relaxation and Improved Absorption in Epitaxial and Non-epitaxial MoS2/WS2Heterostructures. Nano Letters 15, 486–491 (2015). (#equal contribution) Hu, S. and Wang, X. Ultrathin nanostructures: smaller size with new phenomena. Chemical Society Reviews 42, 5577-5594 (2013). Hu, S., Liu, H., Wang, P. and Wang, X. Inorganic Nanostructures with Sizes down to 1 nm: A Macromolecule Analogue. Journal of the American Chemical Society 135, 11115-11124 (2013). Hu S. and Wang X. From cluster assembly to ultrathin nanocrystals and complex nanostructures. Science China Chemistry 55, 2257-2271 (2012) Hu, S. and Wang, X. Fullerene-Like Colloidal Nanocrystal of Nickel Hydroxychloride. Journal of the American Chemical Society 132, 9573-9575 (2010). Hu, S., Ling, X., Lan, T. and Wang, X. Cluster-Based Self-Assembly Route toward MoO3 Single-Walled Nanotubes. Chemistry-a European Journal 16, 1889-1896 (2010). Hu, S. and Wang, X. Single-Walled MoO3 Nanotubes. Journal of the American Chemical Society 130, 8126–8127 (2008). Hu, S. and Wang, X. Recent progress in the research of MoO3 Single Walled Nanotubes. Chinese Scientific Bulletin 53, 2127 (2008). (in Chinese) Tang, D., Huang, Q., Yi, R., Dai, F., Gordin, M., Hu, S., Chen, S., Yu, Z., Sohn, H., Song, J., Wang, D. Room-Temperature Synthesis of Mesoporous Sn/SnO2 Composite as Anode for Sodium-Ion Batteries. European Journal of Inorganic Chemistry 13-14, 1950–1954 (2016) Tang, D., Hu, S., Dai, F., Yi, R., Gordin, M., Chen, S., Song, J., Wang, D. Self-Templated Synthesis of Mesoporous Carbon from Carbon Tetrachloride Precursor for Supercapacitor Electrodes. ACS Applied Materials & Interface 8, 6779-6783 (2016). Song, J., Yu, Z., Gordin, M. L., Hu, S., Yi, R., Tang, D., Walter, T., Regula, M., Choi, D., Li, X., Manivannan, A. and Wang, D. Chemically Bonded Phosphorus/Graphene Hybrid as a High Performance Anode for Sodium-Ion Batteries. Nano Letters 14, 6329-6335 (2014). Huang, Q., Hu, S., Zhuang, J. and Wang, X. MoO3–x-Based Hybrids with Tunable Localized Surface Plasmon Resonances: Chemical Oxidation Driving Transformation from Ultrathin Nanosheets to Nanotubes. Chemistry - A European Journal 18, 15283-15287 (2012). Long, Y., Hui, J., Wang, P., Hu, S., Xu, B., Xiang, G.-l., Zhuang, J., Lu, X.-q. and Wang, X. α-MnO2 nanowires as building blocks for the construction of 3D macro-assemblies. Chemical Communications 48, 5925-5927 (2012). Long, Y., Hui, J., Wang, P., Xiang, G., Xu, B., Hu, S., Zhu, W., Lv, X., Zhuang, J. and Wang, X. Hydrogen Bond Nanoscale Networks ShowingSwitchable Transport Performance. Scientific Report. 2, 612; DOI:10.1038/srep00612 (2012). Wang, P., Yu, Q., Long, Y., Hu, S., Zhuang, J. and Wang, X. Multivalent assembly of ultrasmall nanoparticles: One-, two-, and three-dimensional architectures of 2 nm gold nanoparticles. Nano Research 5, 283-291 (2012).标签: 天津大学 分子光电科学重点实验室
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