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浙江师范大学化学与生命科学学院导师教师师资介绍简介-浙江师范大学柏嵩

本站小编 Free考研考试/2021-04-11

基本资料:
柏嵩,博士,副教授,硕士生导师。2015年毕业于中国科学技术大学无机化学专业,获理学博士学位,导师熊宇杰教授(国家****)。主要从事光电催化材料的表界面设计、可控合成以及在新能源领域应用的研究。目前发表第一/通讯作者论文50余篇,包括Angew. Chem. Int. Ed.Adv. Mater.Chem. Soc. Rev.Nano EnergyAdv. Sci.SmallNano Res.Chem. Commun.ACS Appl. Mater. InterfacesJ. Mater. Chem. AChemSusChemNanoscaleApplied Catal. B: Environ.CarbonChem. Eng. J.等化学和材料领域的重要期刊。研究论文已被他人引用2600余次,单篇最高他引400余次,8篇论文入选ESI高引频论文,1篇论文入选ESI热点论文,h-index为25。
联系方式:
Email:songbai@zjnu.cn; Tel: **
研究方向:
1.复合光催化剂的表界面设计用于太阳能驱动化学品的合成,如光解水产氢,光催化还原CO2等。
2.新型电催化剂和光电催化剂的可控合成用于催化析氢,CO2还原等清洁能源的开发。
科研项目:
1.用于二氧化碳光催化转换燃料反应助催化剂的表面缺陷调控及其作用机
理研究国家自然科学基金青年基金2017.1–2019.12主持(在研)。
2.用于二氧化钛转化甲烷串联反应的可见光响应Au-TiO2-Pd/NiO复合光催化剂的设计与合成研究浙江省自然科学基金青年基金2016.1–2018.12主持(拟结题)。
获奖与荣誉:
1.江苏省优秀硕士论文(2013年)
2.中国科学院院长特别奖(2015年)
3.江苏省科学技术三等奖(第五完成人,2016年)
4.中国科学院优秀博士论文奖(2018年)
学生培养:
1.指导或合作指导研究生获2017、2018年度“研究生国家奖学金”3人次。
2.指导或合作指导研究生获2018年度“浙江省优秀硕士论文”1人次。
3.指导或合作指导研究生获2018年度“浙江省研究生优秀毕业生”1人次。

发表论文:
2019
64.X. Cai, J. Wang, R. Wang, A. Wang, S. Zhong, J. Chen andS. Bai*,Interface engineering on Janus Pd-Au heterojunction co-catalysts for selective photocatalytic reduction of CO2to CH4.J. Mater. Chem. A,DOI:10.1039/C9TA00172G(2019 Journal of Materials Chemistry A HOT Papers).
63.J. Lu, Y. Chen, L. Li, X. Cai, S. Zhong*, L. Wu, J. Chen andS. Bai*,Facet engineering on the interface of BiOCl-PbSheterostructures for enhanced broad-spectrumphotocatalytic H2production.Chem. Eng. J.,2019, 362, 1–11.
62.S. Bai*, C. Gao, J. Low and Y. Xiong*,Crystal phase engineering on photocatalytic materials for energy and environmental applications.Nano Res.,DOI: 10.1007/s12274-018-2267-6.
61.J. H. Wu, F. Q. Shao, S. Y. Han,S. Bai, J. J. Feng, Z. Li and A. J. Wang*,Shape-controlled synthesis of well-dispersed platinum nanocubes supported on graphitic carbon nitride as advanced visible-light-driven catalyst for efficient photoreduction of hexavalent chromium.J. Colloid Interface Sci.,2019, 535, 41–49.

2018
60.S. Bai*, N. Zhang, C. Gao and Y. Xiong*, Defect engineering in photocatalytic materials.Nano Energy, 2018, 53, 296–336.
59.X. Cai, A. Wang, J. Wang, R. Wang, S. Zhong, Y. Zhao, L. Wu, J. Chen andS. Bai*,Ordered engineering on the lattice of intermetallic PdCu co-catalysts in boosting the photocatalytic conversion of CO2into CH4.J. Mater. Chem. A,2018, 6, 17444–17456. (2018 Journal of Materials Chemistry A HOT Papers).
58.L. Zhao, F. Ye, D. Wang, X. Cai, C. Meng,H. Xie, J. Zhang andS. Bai*, Lattice engineering on metal cocatalysts for enhanced photocatalytic reduction of CO2into CH4.ChemSusChem, 2018, 11, 3524–3533.
57.F. Ye, F. Wang, C. Meng, L. Bai, J. Li, P. Xing, B. Teng,* L. Zhao* andS. Bai*,Crystalline phase engineering on cocatalysts: A promising approach to enhancement on photocatalytic conversion of carbon dioxide to fuels.Appl. Catal. B: Environ., 2018, 230, 145–153.
56.L. Bai, X. Cai, J. Lu, L. Li, S. Zhong,* L. Wu, P. Gong, J. Chen andS. Bai*, Surface and interface engineering in Ag2S@MoS2core-shell nanowire heterojunctions for enhanced visible photocatalytic hydrogen production.ChemCatChem, 2018, 10, 2107–2114.
55. Q. Yin, L. Tan, Q. Lang, X. Ke, L. Bai, K. Guo, R. Qiao*andS. Bai*,Plasmonic molybdenum oxide nanosheets supported silver nanocubes for enhanced near-infraredantibacterial activity: synergismof photothermal effect, silver release and photocatalytic reactions.Appl. Catal. B: Environ., 2018, 224, 671–680.
54.Q. Lang, Y. Chen, T. Huang, L. Yang, S. Zhong, L. Wu, J. Chen andS. Bai*, Graphene “bridge” in transferring hot electrons from plasmonic Ag nanocubes to TiO2nanosheets for enhanced visible light photocatalytic hydrogen evolution.Appl. Catal. B: Environ., 2018, 220, 182–190.
2017
53.Q. Lang, W. Hu, P. Zhou, T. Huang, S. Zhong*, L. Yang, J. Chen andS. Bai*, Twin defects engineered Pd cocatalyst on C3N4nanosheets for enhanced photocatalytic performance in CO2reduction reaction.Nanotechnology,2017,28,484003(Invited research article, Focus on CO2reduction).
52.Z. Xu, Y. Zhu, L. Bai, Q. Lang, W. Hu, C. Gao, S. Zhong andS. Bai*,Chemicaletching of graphene supported PdPt alloy nanocubes into concave nanostructures for enhanced catalytic hydrogen production from alkaline formaldehyde aqueous solution.Inorg. Chem. Front., 2017,4,1704–1713.
51.L.Bai, F.Ye, L.Li, J.Lu, S.ZhongandS.Bai*,Facetengineeredinterfacedesign ofplasmonicmetal andcocatalyst on BiOClnanoplates forenhancedvisiblephotocatalyticoxygenevolution.Small, 2017, 13, **.
50.Q. Lang, Y. Yang, Y. Zhu, W. Hu, W. Jiang, S. Zhong, P. Gong, B. Teng*, L. Zhao* andS. Bai*,High-index facet engineering on PtCu cocatalyst for superior photocatalytic reduction of CO2toCH4.J. Mater. Chem. A,2017,5, 6686–6694.
49. C. Cui,M. Tou, M. Li, Z. Luo, L. Xiao,S. Baiand Z. Li*,Heterogeneous semiconductor shells sequentially coated on upconversion nanoplates for NIR-light enhanced photocatalysis.Inorg. Chem., 2017, 56, 2328–2336.
48. Y. Zhu, C. Gao,S. Bai*, S. Chen, R. Long, L. Song, Z. Li* and Y. Xiong*, Hydriding Pd cocatalysts: an approach to giant enhancement on photocatalytic CO2reduction into CH4.Nano Res., 2017, 10, 3396–3406.
47. Y. Zhu, Z. Xu, Q. Lang, W. Jiang, Q. Yin, S. Zhong andS. Bai*, Grain boundary engineered metal nanowire cocatalysts for enhanced photocatalytic reduction of carbon dioxide.Appl. Catal. B: Environ., 2017, 206, 282–292.
46. Y. Zhu, Z. Xu, W. Jiang, S. Zhong, L. Zhao andS. Bai*,Engineering on the edge of Pd nanosheet cocatalysts for enhanced photocatalytic reduction of CO2to fuels.J. Mater. Chem. A,2017,5, 2619–2628.45.S. Bai*, L. Wang, Z. Li and Y. Xiong*, Facet-engineered surface and interface design of photocatalytic materials.Adv. Sci., 2017,4,** (入选ESI高引频论文).
44.M. Tou, Z. Luo,S. Bai, F. Liu, Q. Chai, S. Li and Z. Li*,Sequential coating upconversion NaYF4:Yb,Tm nanocrystals with SiO2and ZnO layers for NIR-driven photocatalytic andantibacterial applications,Mater. Sci. Eng. C, 2017, 70, 1141–1148.

2016
43. L. Bai, W. Jiang, C. Gao, S. Zhong, L. Zhao, Z. Li* andS. Bai*, Facet engineered interface design of NaYF4:Yb,Tm upconversion nanocrystals on BiOCl nanoplates for enhanced near-infrared photocatalysis.Nanoscale,2016,8, 19014–19024.
42. W. Yin, L. Bai, Y. Zhu, S. Zhong, L. Zhao, Z. Li* andS. Bai*, Embedding metal in the interface of p-n heterojunction with stack design for superior Z-scheme photocatalytic hydrogen evolution.ACS Appl. Mater. Interfaces, 2016, 8, 23133–23142.
41. K. Wang, W. Qincheng, F. Wang,S. Bai, S. Li and Z. Li*,Coating a N-doped TiO2shell on dually sensitized upconversion nanocrystals to provide NIR-enhanced photocatalysts for efficient utilization of upconverted emissions.Inorg. Chem. Front., 2016,3, 1190–1197.
40.S. Bai*, W. Yin, L. Wang, Z. Li and Y. Xiong*,Surface and interface design of cocatalysts for photocatalytic water splitting and CO2reduction.RSC Adv., 2016, 6, 57446–57463.
39.Y. Zhu,Z. Xu,W. Jiang,W. Yin,S. Zhong,P. Gong,R. Qiao,Z. Li*andS. Bai*,Ultrathin nanosheets of palladium in boosting its cocatalyst role and plasmonic effect towards enhanced photocatalytic hydrogen evolution.RSC Adv., 2016,6, 56800–56806.
38. W. Yin,S. Bai, Y. Zhong, Z. Li* and Y. Xie,Direct generation of fine Bi2WO6nanocrystals on g-C3N4nanosheets for enhanced photocatalytic activity.ChemNanoMat,2016, 2, 732–738.
37.S. Bai, M. Xie, Q. Kong, W. Jiang, R. Qiao, Z. Li*, J. Jiang* and Y. Xiong*.Incorporation of Pd into Pt co-catalysts toward enhanced photocatalytic water splitting.Part. Part. Syst. Charact.,2016,33, 506–511.
36. W. Jiang,S. Bai*, L. Wang, X. Wang, L. Yang, Y. Li, D. Liu, X. Wang, Z. Li, J. Jiang andY. Xiong*.Integration of multiple plasmonic and co-catalyst nanostructures on TiO2nanosheets for visible-near-infrared photocatalytic hydrogen evolution.Small,2016,12, 1640–1648(入选ESI高引频论文) .
35.J. Feng, C. An*, L. Dai, J. Liu, G. Wei,S. Bai, J. Zhang*and Y. Xiong*.Long-term production of H2over Pt/CdS nanoplates under sunlight illumination.Chem. Eng. J.,2016, 283, 351–357.
34.L. Lei,S. Bai*, W. Yin, S. Li, Y. Zhang and Z. Li*. A novel etching and reconstruction route to ultrathin porous TiO2hollow spheres for enhanced photocatalytic hydrogen evolution.Int. J. Hydrogen Energy,2016, 41, 1627–1634.
33.M. Tou, Y. Mei,S. Bai*, Z. Luo, Y. Zhang and Z. Li*.Depositing CdS nanoclusters on carbon-modifiedNaYF4:Yb,Tm upconversion nanocrystals for NIR light enhanced photocatalysis.Nanoscale,2016,8, 553–562.
2015
32. S. Bai, L. Yang, C. Wang, Y. Lin, J. Lu, J. Jiang and Y. Xiong*. Boosting photocatalytic water splitting: interfacial charge polarization in atomically controlled core-shell co-catalyst.Angew. Chem. Int. Ed., 2015, 54, 14810–14814 (VIP paper).
31.S. Bai, J. Jiang, Q. Zhang and Y. Xiong*. Steering charge kinetics in photocatalysis: intersection of materials syntheses, characterization techniques and theoretical simulations.Chem. Soc. Rev.,2015, 44, 2893–2939 (back cover)(入选ESI高引频论文).
30.S. Bai, X. Li, Q. Kong, R. Long, C. Wang, J. Jiang and Y. Xiong*. Toward enhanced photocatalytic oxygen evolution: synergetic utilization of plasmonic effect and schottky junction via interfacing facet selection.Adv. Mater.,2015, 27, 3444–3452(入选ESI高引频论文).
29.S. Zhou,S. Bai*,E. Cheng,R. Qiao,Y. XieandZ. Li*.Facile ‘embedding’ of Au nanocrystals into silica spheres with controllable quantity for improved catalytic reduction ofp-nitrophenol.Inorg. Chem. Front., 2015,2, 938–944.
28.S. Bai, C. Wang*, W. Jiang, N. Du, J. Li, J. Du, R. Long, Z. Li and Y. Xiong*. Etching approach to hybrid structures between PtPd nanocages and graphene towards efficient oxygen reduction reaction.Nano Res.,2015,8, 2789–2799.
27.S. Bai, L. Wang, X. Chen, J. Du and Y. Xiong*. Chemically exfoliated metallic MoS2nanosheets: a promising supporting co-catalyst for enhancing photocatalytic performance of TiO2nanocrystals.Nano Res.,2015, 8, 175–183(Top Papers Award of Nano Research in 2017,入选ESI高引频论文).
26.S. Bai, and Y. Xiong*.Some recent developments in surface and interface design for photocatalytic and electrocatalytic hybrid structures.Chem. Commun.,2015, 51, 10261–10271.
25.S. Baiand Y. Xiong*. Recent advances in two-dimensional nanostructures for catalysis applications.Sci. Adv. Mater.,2015, 7, 2168–2181(入选ESI热点论文).
24.S. Bai, W. Jiang, Z. Li and Y. Xiong*.Surface and interface engineering in photocatalysis.ChemNanoMat,2015,1, 223–239.
23.C. Wang*,S. Baiand Y. Xiong*, Recent Advances in Surface and Interface Engineering for Electrocatalysis.Chin. J. Catal., 2015, 36, 1476–1493.
22.S. Baiand Y. Xiong*.Precise control over the surface and interface structures of nanocatalysts.Sci. Adv. Today,2015,1, 25215.
21.E. Cheng, W. Yin,S. Bai, R. Qiao, Y. Zhong and Z. Li*,Synthesis of vis/NIR-driven hybrid photocatalysts by electrostatic assembly of NaYF4:Yb, Tm nanocrystals on g-C3N4nanosheets.Mater. Lett., 2015, 146, 87–90.
2014
20. S. Bai, C. Wang, M. Deng, M. Gong, Y. Bai, J. Jiang and Y. Xiong*. Surface polarization matters: enhancing hydrogen evolution reaction by shrinking Pt shells in Pt-Pd-graphene stack structures. Angew. Chem. Int. Ed.,2014, 53, 12120–12124 (back cover, 入选ESI高引频论文).
19. S. Bai, J. Ge, L. Wang, M. Gong, M. Deng, Q. Kong, L. Song, J. Jiang*, Q. Zhang*, Y. Luo, Y. Xie and Y. Xiong*. A unique semiconductor-metal-graphene stack design to harness charge flow for photocatalysis. Adv. Mater.,2014, 26, 5689–5695 (inside front cover).
18. S. Bai, X. Wang, C. Hu, M. Xie, J. Jiang*and Y. Xiong*.Two-dimensional g-C3N4: an ideal platform for examining facet selectivity of metal co-catalysts in photocatalysis. Chem. Commun.,2014, 50, 6094–6097 (inside front cover).
17. L. Wang, J. Ge, A. Wang, M. Deng, X. Wang,S. Bai, R. Li,J. Jiang*, Q. Zhang*, Y. Luo and Y. Xiong*. Designing p-Type semiconductor-metal hybrid structures for improved photocatalysis.Angew. Chem. Int. Ed.,2014, 53, 5107–5111.
16. R. Long, K. Mao, M. Gong, S. Zhou, J. Hu, M. Zhi, Y. You,S. Bai, J. Jiang, Q. Zhang*, X. Wu* and Y. Xiong*. Tunableoxygen activation for catalytic organic oxidation: schottky junction versusplasmonic effects. Angew. Chem. Int. Ed.,2014, 53, 3205–3209.
15.Z. Ji, X. Shen*, Y. Xu, H. Zhou,S. Baiand G. Zhu. A facile and general route for the synthesis of semiconductor quantum dots on reduced graphene oxide sheets. RSC Adv., 2012, 4, 13601–13609.
2013
14.S. Bai,X. Shen*, G. Zhu, A. Yuan, J. Zhang, Z. Ji and D. Qiu.The influence of wrinkling in reduced graphene oxide on their adsorption and catalytic properties.Carbon,2013, 60, 157–168.
13.S.Bai,X.Shen*, H.Lv, G.Zhu,C. Bao and Y. Shan,Assembly of Ag3PO4nanocrystals on graphene-based nanosheets with enhanced photocatalytic performance.J. Colloid Interface Sci.,2013, 405, 1–9.
12.S.Bai, X.Shen*, G.Zhu, H.Zhou, H.Xu, G.FuandZ.Ye,Optical properties and a simple and general route for the rapid syntheses of reduced graphene oxide-metal sulfide nanocomposites.Eur. J. Inorg. Chem., 2013, 256–262.
11. C. Wang, L. Ma, L. Liao,S. Bai, R. Long, M. Zuoand Y. Xiong*. A unique platinum-graphene hybrid structure for highactivity and durability in oxygen reduction reaction.Sci. Rep., 2013,3, 2580.
2012
10.S.Bai,S. Chen,X.Shen*, G.Zhu and G.Wang.Nanocomposites of hematite (α-Fe2O3) nanospindles with crumpledreduced graphene oxide nanosheets as high-performance anode materialfor lithium-ion batteries,RSC Adv., 2012,2, 10977–10984(入选ESI高引频论文).
9.S.Bai, X.Shen*, G.Zhu, M.Li, H.Xi and K.Chen.In situ growth of NixCo100?xnanoparticles on reduced grapheneoxide nanosheets and their magnetic and catalytic properties.ACS Appl. Mater. Interfaces, 2012, 4, 2378–2386.
8.S.BaiandX.Shen*. Graphene-inorganic nanocomposites,RSC Adv., 2012,2, 64–98 (入选ESI高引频论文).
7.S.Bai, X.Shen*, X.Zhong, Y.Liu, G.Zhu, X.XuandK.Chen.One-pot solvothermal preparation of magnetic reduced graphene oxide-ferrite composites for organic dye removal.Carbon, 2012,50, 2337–2346(入选ESI高引频论文).
6.S.Bai, X.Shen*, G.Zhu, Z.XuandJ.Yang.In situ growth of FeNi alloy nanoflowers on reduced graphene oxide nanosheets and their magnetic properties,CrystEngComm, 2012,14, 1432–1438.
5.G. Zhu, Y. Liu, Z. Ji,S. Bai,X.Shen*andZ.Xu.Hierarchical ZnO microspheres built by sheet-like network: Large-scale synthesis and structurally enhanced catalytic performances.Mater. Chem. Phys., 2012, 132, 1065–1070.
2011
4.S.Bai, X.Shen*, G.Zhu, Z.XuandY.Liu.Reversible phase transfer of graphene oxide and its use in the synthesis of graphene-based composite materials.Carbon,2011,49,4563–2118.
2010
3. J. Wu,S. Bai,X.Shen*andL.Jiang.Preparation and characterization of graphene/CdS nanocomposites,Appl. Surf. Sci.,2010, 257, 747–751.
2.X.Shen*,J. Wu,S. Baiand H. Zhou. One-pot solvothermal syntheses and magnetic properties of graphene-based magnetic nanocomposites,J. Alloy. Compd.,2010, 506, 136–140.
1.柏嵩,沈小平*,石墨烯基无机纳米复合材料,化学进展,2010,22,2106.
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