上海交通大学化学化工学院化学系宰建陶

sanpang

宰建陶博士、 助理研究员

电话：+86-21-34202642

email：zaijiantao@sjtu.edu.cn

教育经历
2003.9－2007.7 上海交通大学，应用化学专业，获理学学士学位；
多次获得奖学金、三好学生、优秀班干部称号
2007.9－2012.10 上海交通大学，应用化学专业（直博生），获工学博士学位；
荣获上海市优秀毕业生。
工作经历
2014.1－至今 上海交通大学，化学化工学院，助理研究员
2012.11－2013.12 美国宾夕法尼亚州立大学，博士后研究

简介：
主要从事基于第四主族化合物的功能材料结构设计、控制合成及性能研究。探索运用优化的有机功能化的或无机模板作用以及组装方法对无机晶体和超结构实现可控合成，并对其相关性能进行研究。参与了国家自然科学基金《基于光伏电池用的I-III-VI2 族多元硫属化合物纳米晶的液相合成、机理及性能研究》和国家重点基础研究发展规划（973）项目《纳米结构材料的程序化组装》等项目的研究。在 Nature Communication, Nano Energy, Journal of Materials Chemistry，JournalPower Sources等国际重要期刊上发表论文四十余篇。如，在锂离子电池负极材料的设计合成方面的工作获得了广泛关注，如SnS2三维多级结构和Co3O4纳米棒/石墨烯复合物负极材料的两篇文章在J. Power sources发表后均受到广泛关注并入选SCI高引用和热门论文；阐述SnS2三维多级结构控制机理（CrystEngComm）、NiO/GNS复合结构（RSC Advances）及MnFe2O4/石墨烯复合物（Phys Chem Chem Phys）的论文发表后当月点击率都进入前十。

荣誉称号:
1.上海市2013年度“晨光计划”

英文专著:
Ashish Dubey†；Jiantao Zai†; Xuefeng Qian and Qiquan Qiao*,"Metal oxide nanocrystals andtheir properties for application in solar cells" Charpter No. 28 inHandbook of Nanomaterials Properties(Bharat Bhushan (ed.))ISBN978-3-642-31106-2, 2014 (In Press)

发表论文：

48. Zai Jiantao and Qian Xuefeng*, Threedimensional metal oxides-graphene composites and their applications in lithiumion batteries. RSC Advances, 2015. 5(12), 8814-8834.

47. Zhu Qi, Chen Wenlong, Dai Fang, YuanYanping, Wu Xiangyang, Zai Jiantao*, Qi Rongrong*, and Qian Xuefeng, WaterSoluble CuInSe2 Nanoplates: Controlled Synthesis, Photoelectric Response andElectrocatalytic Reduction of Polysulfides. ChemNanoMat, 2015. 1(1), 52-57.

46. Xu Miao, Ye Tiannan, Dai Fang, YangJindi, Shen Jingmei, He Qingquan, Chen Wenlong, Liang Na, Zai Jiantao*, andQian Xuefeng*, Rationally Designed n–n Heterojunctionwith Highly Efficient Solar Hydrogen Evolution. ChemSusChem, 2015. 8(7),1218-25.

45. Wang Min, Zai Jiantao*, Chen Wenlong,Wei xiao, Liang Na, Xu Miao, Qi Rongrong*, and Qian Xuefeng, N-typehedgehog-like CuBi2O4 hierarchical microspheres: room temperature synthesis andtheir photoelectrochemical properties. CrystEngComm, 2015. 17(21), 4019-4025.

44. Wang Min, Chen Wenlong, Zai Jiantao*,Huang Shoushuang, He Qingquan, Zhang Wei, Qiao Qiquan*, and Qian Xuefeng*,Hierarchical Cu7S4 nanotubes assembled by hexagonal nanoplates with highcatalytic performance for quantum dot-sensitized solar cells. Journal of PowerSources, 2015. 299, 212-220.

43. Liang Na, Chen Wenlong, Dai Fang, WuXiangyang, Zhang Wei, Li Zhi, Shen Jingmei, Huang Shoushuang, He Qingquan, JiantaoZai*,Fang Nenghu, and Qian Xuefeng*, Homogenously hexagonal prismatic AgBiS2nanocrystals: controlled synthesis and application in quantum dot-sensitizedsolar cells. CrystEngComm, 2015. 17(9), 1902-1905.

42. Huang Shoushuang†, HeQingquan†, Zai Jiantao*, Wang Min, Li Xiaomin, Li Bo, and Qian Xuefeng*, Therole of Mott-Schottky heterojunctions in PtCo-Cu2ZnGeS4 as counter electrodesin dye-sensitized solar cells. Chemical Communications, 2015. 51(43), 8950-3.

41. Huang Shoushuang†, HeQingquan†, Chen Wenlong, Zai Jiantao*, Qiao Qiquan*, and Qian Xuefeng*, 3Dhierarchical FeSe2 microspheres: Controlled synthesis and applications indye-sensitized solar cells. Nano Energy, 2015. 15(0), 205-215.

40. Huang Shoushuang†, HeQingquan†, Chen Wenlong, Qiao Qiquan*, Zai Jiantao*, and Qian Xuefeng*,Ultrathin FeSe2 Nanosheets: Controlled Synthesis and Application as aHeterogeneous Catalyst in Dye-Sensitized Solar Cells. Chemistry – A EuropeanJournal, 2015. 21(10), 4085-4091.

39. He Qingquan, Qian Tianyue, Zai Jiantao*,Qiao Qiquan, Huang Shoushuang, Li Yiran, and Wang Min, Efficient Ag8GeS6Counter Electrode Prepared From Nanocrystal Ink for Dye-Sensitized Solar Cells.Journal of Materials Chemistry A, 2015. 3(40), 20359-20365.

38. He Qingquan†, HuangShoushuang†, Wang Cheng, Qiao Qiquan*, Liang Na, Xu Miao, Chen Wenlong, ZaiJiantao*, and Qian Xuefeng*, The Role of Mott–SchottkyHeterojunctions in Ag–Ag8SnS6 as Counter Electrodes in Dye-Sensitized Solar Cells.ChemSusChem, 2015. 8(5), 817-820.

37. He Qingquan†, HuangShoushuang†, Zai Jiantao*, Tang Nianqi, Li Bo, Qiao Qiquan, and Qian Xuefeng*,Efficient Counter Electrode Manufactured from Ag2S Nanocrystal Ink forDye-Sensitized Solar Cells. Chemistry – A European Journal,2015. 21(43), 15153-15157.

36. Chen Wenlong, Wang Min, Qian Tianyue,Cao Hongliang*, Huang Shoushuang, He Qingquan, Liang Na, Wang Cheng*, and ZaiJiantao*, Rational design and fabrication of skeletal Cu7S4 nanocages forefficient counter electrode in quantum dot-sensitized solar cells. Nano Energy,2015. 12(0), 186-196.

35. Li Bo, Zai Jiantao*, Wang Kaixue, andQian Xuefeng*, Facile synthesis of porous Zn-Sn-O nanocubes and theirelectrochemical performances. Nano-Micro Letters, 2015 Accepted.

34. Aboagye Alex, Elbohy Hytham, KelkarAjit, Qiao Qiquan, Zai Jiantao*, Qian Xuefeng*, and Zhang Lifeng*, Electrospuncarbon nanofibers with surface-attached platinum nanoparticles ascost-effective and efficient counter electrode for dye-sensitized solar cells.Nano Energy, 2015. 11(0), 550-556.

33. Sigdel Sudhan, Elbohy Hytham, GongJiawei, Adhikari Nirmal, Sumathy Krishnan, Qiao Hui*, Wei Qufu*, SayyadMuhammad Hassan, Zai Jiantao*, Qian Xuefeng*, and Qiao Qiquan*, Dye-SensitizedSolar Cells Based on Porous Hollow Tin Oxide Nanofibers. Ieee Transactions onElectron Devices, 2015. 62(6), 2027-2032.

32. Yi Ran, Zai Jiantao, Dai Fang, GordinMikhail L., and Wang Donghai, Dual conductive network-enabled graphene/Si–C compositeanode with high areal capacity for lithium-ion batteries. Nano Energy, 2014.6(0), 211-218.

31. Xu Miao, Wang Min, Ye Tiannan,Liang Na, Jin Lun, Zai Jiantao*, and Qian Xuefeng*, Cube-in-Cube Hollow Cu9S5Nanostructures with Enhanced Photocatalytic Activities in Solar H2 Evolution.Chemistry – A European Journal, 2014. 20(42), 13576-13582.

30. Xiao Yinglin, Li Xiaomin, ZaiJiantao*, Wang Kaixue, Gong Yong, Li Bo, Han Qianyan, and Qian Xuefeng*,CoFe2O4-Graphene Nanocomposites Synthesized through An Ultrasonic Method withEnhanced Performances as Anode Materials for Li-ion Batteries. Nano-MicroLetters, 2014. 6(4), 307-315.

29. Thapa Amit†, ZaiJiantao†, Elbohy Hytham, Poudel Prashant, Adhikari Nirmal, Qian Xuefeng, andQiao Qiquan, TiO2 coated urchin-like SnO2 microspheres for efficientdye-sensitized solar cells. Nano Research, 2014. 7(8), 1154-1163.

28. Liang Na, Wang Min, Jin Lun, HuangShoushuang, Chen Wenlong, Xu Miao, He Qingquan, Zai Jiantao*, Fang Nenghu, andQian Xuefeng*, High efficient Ag2O/Bi2O2CO3 p-n heterojunction photocatalystswith improved visible light responsive activity. ACS Applied Materials &Interfaces, 2014. 6(14), 11698-705.

27. Liang Na, He Qingquan, HuangShoushuang, Wang Min, Chen Wenlong, Xu Miao, Yuan Yanping, Zai Jiantao*, FangNenghu, and Qian Xuefeng*, AgInxGa1-xS2 solid solution nanocrystals: synthesis,band gap tuning and photocatalytic activity. CrystEngComm, 2014. 16(43),10123-10130.

26. Dai Fang†; ZaiJiantao†; Yi Ran; Gordin Mikhail L.; Sohn Hiesang; Chen Shuru; WangDonghai*, Bottom-up synthesis of high surface area mesoporous crystallinesilicon and evaluation of its hydrogen evolution performance. Naturecommunications 2014, 10.1038/ncomms4605. (Contributed Equally)

25. Xiao Yinglin; Zai Jiantao*; LiXiaomin; Gong Yong; Li Bo; Han Qianyan; Qian Xuefeng*, Polydopaminefunctionalized graphene/NiFe2O4 nanocomposite with improving Li storageperformances. Nano Energy 2014, Doi:10.1016/j.nanoen.2014.03.006.

24. Liang Na; Zai Jiantao*; Xu Miao;Zhu Qi; Wei Xiao; Qian Xuefeng*, Novel Bi2S3/Bi2O2CO3 heterojunctionphotocatalysts with enhanced visible light responsive activity and wastewatertreatment. Journal of Materials Chemistry A 2014, 2 (12), 4208-4216. (ISIHighly Cited Papers and Hot Papers)

23. Li Bo; Zai Jiantao*; xiao yinglin;Han Qianyan; Qian Xuefeng*, SnO2/C composites fabricated by Bio-templatingmethod from cotton and their electrochemical performances. Crystengcomm2014.doi: 10.1039/C3CE42659A

22. Zai Jiantao; Zhu Jun; QiRongrong*; Qian Xuefeng*, Nearly monodispersed In(OH)3 hierarchical nanospheresand nanocubes: tunable ligand-assisted synthesis and their conversion intohierarchical In2O3 for gas sensing. Journal of Materials Chemistry A 2013, 1(3), 735-745.

21. Zai Jiantao; Yu Chao; Tao Liqi; XuMiao; Xiao Yinglin; Li Bo; Han Qianyan; Wang Kaixue; Qian Xuefeng*, Synthesisof Ni-doped NiO/RGONS nanocomposites with enhanced rate capabilities as anodematerials for Li ion batteries. Crystengcomm 2013, 15 (34), 6663-6671.

20. Zai Jiantao; Chen Hongjin; HuangChongwen; Huang Jie; Chen Fukun; Xu Miao; Qian Xuefeng*, The fabrication ofhollow cubic-like CuInS2 cages using Cu2O crystals as sacrificing template.Materials Chemistry and Physics 2013, 143 (1), 15-18.

19. Yi Ran; Zai Jiantao; Dai Fang;Gordin Mikhail L; Wang Donghai*, Improved rate capability of Si–C compositeanodes by boron doping for lithium-ion batteries. ElectrochemistryCommunications 2013, 36, 29-32.

18. Xiao Yinglin; Zai Jiantao; TaoLiqi; Li Bo; Han Qianyan; Yu Chao; Qian Xuefeng*, MnFe2O4-graphenenanocomposites with enhanced performances as anode materials for Li-ionbatteries. Physical Chemistry Chemical Physics 2013, 15 (11), 3939-3945. (TopTen most accessed)

17. Han Qianyan; Zai Jiantao; XiaoYinglin; Li Bo; Xu Miao; Qian Xuefeng*, Direct growth of SnO2 nanorods ongraphene as high capacity anode materials for lithium ion batteries. RscAdvances 2013, 3 (43), 20573-20578.

16. Chen Fukun; Zai Jiantao; Xu Miao;Qian Xuefeng*, 3D-hierarchical Cu3SnS4 Flowerlike Microspheres: ControlledSynthesis, Formation Mechanism and Photocatalytic Activity for H2 Evolutionfrom Water. Journal of Materials Chemistry A 2013, 1 (13), 4316-4323.

15. Zai Jiantao; Yu Chao; Zou Qiong;Tao Liqi; Wang Kaixue; Han Qianyan; Li Bo; Xiao Yinglin; Qian Xuefeng*; QiRongrong, Magnetite modified graphene nanosheets with improved rate performanceand cyclic stability for Li ion battery anodes. Rsc Advances 2012, 2 (10),4397-4403.

14. Zai Jiantao; Qian Xuefeng*; WangKaixue; Yu Chao; Tao Liqi; Xiao Yinglin; Chen Jiesheng, 3D-hierarchical SnS2micro/nano-structures: controlled synthesis, formation mechanism and lithiumion storage performances. Crystengcomm 2012, 14 (4), 1364-1375. (Top Tenmost accessed)

13. Xu Miao.; Zai Jiantao; YuanYanping; Qian Xuefeng*, Band gap-tunable (CuIn)xZn2(1-x)S2 solid solutions:Preparation and efficient photocatalytic hydrogen production from water undervisible light without noble metals. Journal of Materials Chemistry 2012, 22(45), 23929-23934.

12. Tao Liqi; Zai Jiantao; WangKaixue; Zhang Haojie; Xu Miao; Shen Jie; Su Yuezeng; Qian Xuefeng*, Co3O4nanorods/graphene nanosheets nanocomposites for lithium ion batteries withimproved reversible capacity and cycle stability. Journal of Power Sources2012, 202, 230-235. (ISI Highly Cited Papers and Hot Papers)

11. Tao Liqi†; ZaiJiantao†; Wang Kaixue; Wan Yihang; Zhang Haojie; Yu Chao; Xiao Yinglin; QianXuefeng*, 3D-hierarchical NiO-graphene nanosheet composites as anodes forlithium ion batteries with improved reversible capacity and cycle stability.Rsc Advances 2012, 2 (8), 3410-3415. (Top Ten most accessed)
10. Shen Jie.; Zai Jiantao.; Yuan Yanping.; Qian Xuefeng*., 3Dhierarchical ZnIn2S4: The preparation and photocatalytic properties on watersplitting. International Journal of Hydrogen Energy 2012, 37 (22), 16986-16993.
9. 韩海波; 陈虹锦; 钱雪峰; 宰建陶, TiO_2 粉末多晶 X 射线衍射 Rietveld 全谱拟合定量相分析. 实验室研究与探索 2011, 30 (12), 34-37.
8. Zou Q.; Zai J. T.; Liu P.; Qian X. F., Synthesis and lithium storageproperties of hollow Fe2O3/graphene nanocomposites. Chemical Journal of ChineseUniversities 2011, 32 (3), 630-634.
7. Zhao T. Y.; Zai J. T.; Xu M.; Zou Q.; Su Y. Z.; Wang K. X.; Qian X. F.,Hierarchical Bi2O2CO3 microspheres with improved visible-light-drivenphotocatalytic activity. Crystengcomm 2011, 13 (12), 4010-4017.
6. Zai Jiantao.; Wang Kaixue.; Su Yuezeng.; Qian Xuefeng*.; ChenJiesheng., High stability and superior rate capability of three-dimensionalhierarchical SnS2 microspheres as anode material in lithium ion batteries.Journal of Power Sources 2011, 196 (7), 3650-3654. ( ISI HighlyCited Papers and Hot Papers)
5. Yuan Y. P.; Zai J. T.; Su Y. Z.; Qian X. F., Controlled synthesis ofmonodispersed AgGaS2 3D nanoflowers and the shape evolution from nanoflowers tocolloids. Journal of Solid State Chemistry 2011, 184 (5), 1227-1235.
4. Qian L.; Zhu J.; Chen Z.; Gui Y.; Gong Q.; Yuan Y.; Zai J.; Qian X.,Self-assembled heavy lanthanide orthovanadate architecture with controlleddimensionality and morphology. Chemistry - A European Journal 2009, 15 (5),1233-1240.
3. Qian L.; Zai J.; Chen Z.; Zhu J.; Yuan Y.; Qian X., Control of themorphology and composition of yttrium fluoride via a salt-assisted hydrothermalmethod. Crystengcomm 2009, 12 (1), 199-206.
2. Cao H.; Gong Q.; Qian X.; Wang H.; Zai J.; Zhu Z., Synthesis of 3-Dhierarchical dendrites of lead chalcogenides in large scale viamicrowave-assistant method. Crystal Growth and Design 2007, 7 (2), 425-429.
1. Cao Hongliang; Qian Xuefeng*; Zai Jiantao; Yin Jie; Zhu Zikang,Conversion of Cu2O nanocrystals into hollow Cu2-xSe nanocages with thepreservation of morphologies. Chemical Communications 2006, (43), 4548-4550.