实验室：天津大学北洋园校区51教245

办公室：天津大学北洋园校区51教244

e-mail： rychushi@gmail.com

课题组主页（实时更新）：Hu Group@TJU 

研究方向：

1超细纳米异质结构的设计，合成与功能调控

2 超细纳米结构的光电催化性能研究

3 基于纳米结构的自学习危险气体传感器构建

组员：

• 林建楠 2016级 硕士研究生

• 崔柏桦 2016级 硕士研究生

  长期招募优秀本科生，硕士及博士及联合培养研究生！

在研项目：

1 过渡金属氧化物二维超细纳米异质结构的界面生长及性质研究国家自然科学基金青年项目 25万

2 多维度传感器集成可穿戴危险物质检测仪横向课题 50万

学术论文：

Google Scholar个人引用页

• 主要代表作

• 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 Letters15, 486–491 (2015).(#equal contribution)

• Hu, S. and Wang, X. Ultrathin nanostructures: smaller size with new phenomena.Chemical Society Reviews42, 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 Society135, 11115-11124 (2013).

• Hu S. and Wang X. From cluster assembly to ultrathin nanocrystals and complex nanostructures.Science China Chemistry55, 2257-2271 (2012)

• Hu, S. and Wang, X. Fullerene-Like Colloidal Nanocrystal of Nickel Hydroxychloride.Journal of the American Chemical Society132, 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 Journal16, 1889-1896 (2010).

• Hu, S. and Wang, X. Single-Walled MoO3 Nanotubes.Journal of the American Chemical Society130, 8126–8127 (2008).

• Hu, S. and Wang, X. Recent progress in the research of MoO3 Single Walled Nanotubes.Chinese Scientific Bulletin53, 2127 (2008). (in Chinese)

• 其他署名论文

• 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 Chemistry13-14, 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 & Interface8, 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 Letters14, 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 Journal18, 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 Communications48, 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 Research5, 283-291 (2012).

• Zhu, W., Yang, Y., Hu, S., Xiang, G., Xu, B., Zhuang, J. and Wang, X. (Ni,Mg)3Si2O5(OH)4 Solid-Solution Nanotubes Supported by Sub-0.06 wt % Palladium as a Robust High-Efficiency Catalyst for Suzuki–Miyaura Cross-Coupling Reactions.Inorganic Chemistry51, 6020-6031 (2012).

• Wang, P., Bai, B., Huang, L., Hu, S., Zhuang, J. and Wang, X. General synthesis and characterization of a family of layered lanthanide (Pr, Nd, Sm, Eu, and Gd) hydroxide nanowires.Nanoscale3, 2529-2535 (2011).

• Yu, Q., Wang, P., Hu, S., Hui, J., Zhuang, J. and Wang, X. Hydrothermal Synthesis of Hollow Silica Spheres under Acidic Conditions.Langmuir27, 7185-7191 (2011).

• Silveira, J. V., Batista, J. A., Saraiva, G. D., Mendes Filho, J., Souza Filho, A. G., Hu, S. and Wang, X. Temperature dependent behavior of single walled MoO3 nanotubes: A Raman spectroscopy study.Vibrational Spectroscopy54, 179-183 (2010).

• Wang, P., Bai, B., Hu, S., Zhuang, J. and Wang, X. Family of Multifunctional Layered-Lanthanum Crystalline Nanowires with Hierarchical Pores: Hydrothermal Synthesis and Applications.Journal of the American Chemical Society131, 16953-16960 (2009).

• Nisar, A., Xu, X., Shen, S., Hu, S. and Wang, X. Noble Metal Nanocrystal-Incorporated Fullerene-Like Polyoxometalate Based Microspheres.Advanced Functional Materials19, 860-865 (2009).

• Shen, S., Zhuang, J., Xu, X., Nisar, A., Hu, S. and Wang, X. Size Effects in the Oriented-Attachment Growth Process: The Case of Cu Nanoseeds.Inorganic Chemistry48, 5117-5128 (2009).

• Xu, X., Wang, X., Nisar, A., Liang, X., Zhuang, J., Hu, S. and Zhuang, Y. Combinatorial Hierarchically Ordered 2D Architectures Self-assembled from Nanocrystal Building Blocks.Advanced Materials20, 3702-3708 (2008).

• Wang, X., Zhuang, J., Huo, Z., Hu, S. and Li, Y. Covalent-Like Interactions between Artificial Atoms inside Silver Supercrystals.Inorganic Chemistry47, 543-547 (2008).

• Wang, D., Zhao, J., Hu, S., Yin, X., Liang, S., Liu, Y. and Deng, S. Where And How Does A Nanowire Break?Nano Letters7, 1208-1212 (2007).