研究員,博導,江蘇特聘教授
maobd(at)ujs.edu.cn
毛寶東,男,山東菏澤人,研究員,博士生導師,江蘇特聘教授。2007年碩士畢業于東北師範大學,師從著名多酸化學家王恩波教授。2012年博士(Ph.D)畢業于美國凱斯西儲大學,從事新型量子點合成、超快激光光譜和光催化研究。2012-2014年美國内布拉斯加大學林肯分校博士後,從事納米和有機光電子器件及3D打印研究。2015年加入菠菜技术交流论坛,圍繞新型半導體量子點的光電性質調控、超快光譜及清潔能源應用開展了一系列有特色的深入研究。在J Mater. Chem. A, Appl. Catal. B-Environ., J. Phyc. Chem. C 等雜志發表SCI論文70餘篇,h-指數22,1篇入選ESI高被引論文,工作多次被化學化工和材料領域頂級綜述文章作為重要進展大段介紹。主持國家和省部級等項目9項,先後入選國家人社部高層次留學人才、江蘇特聘教授、江蘇省“雙創團隊”(核心成員)、江蘇省“雙創博士”等多項國家和省部級重要人才計劃。
研究方向:
1. 高效納米光/電催化分解水制氫催化劑
2. 新型多元量子點和碳點的制備及清潔能源應用
學習和工作經曆:
2015/01—至今, 菠菜技术交流论坛,研究員
2012/06 - 2014/08,美國内布拉斯加大學林肯分校,機械與材料工程系,博士後
2007/07 - 2012/05,美國凱斯西儲大學,Ph.D
2004/09 - 2007/07,東北師範大學,碩士
2000/09 - 2004/07,東北師範大學,學士
主持項目:
1. 國家人社部高層次留學人才回國資助項目,2017-2020,30萬元
2. 江蘇特聘教授項目, 2016-2019,100萬元
3. 江蘇省“雙創團隊”項目(核心成員), 2016-2019,300萬元
4. 國家自然科學基金, 2016.01-2018.12,23.7萬元
5. 江蘇省自然科學基金, 2015-2018,20萬元
6. 江蘇省“雙創博士”計劃(境外世界名校類),2015-2017,15萬元
7. 中國博士後基金面上項目, 2016-2018,8萬元
8. 國家自然科學基金委面上項目、2013.01-2016.12,80萬元
9. 江蘇省博士後基金, 2015-2017,7萬元
10. 菠菜技术交流论坛高級人才啟動基金, 2015-2017
榮譽稱号和獎勵:
國家人社部高層次留學人才,2017 |
江蘇特聘教授,2016 |
江蘇省“雙創團隊”(核心成員),2016 |
江蘇省“雙創博士”(境外世界名校類),2015 |
江蘇省輕工業協會技術進步二等獎(排名第4),2015 |
專著:
1. 量子點的合成與應用,康振輝、劉陽、毛寶東,科學出版社,2018。
2. Liu, Y.; Mao, B.; Shi, W., Carbon Nitride Fabrication and Its Water-Splitting Applications. In Novel Carbon Materials and Composites, X. Jiang; Z. Kang; Guo, X.; Zhuang, H., Eds. Wiley: 2019; pp 99-136.
代表性文章:
1. Cao, W.; Qin, Y.; Huang, H.; Mao, B.*.; Liu, Y.*; Kang, Z.*, Extraction of High-Quality Quantum Dot Photocatalysts via Combination of Size Selection and Electrochemiluminescence. ACS Sustainable Chemistry & Engineering 2019, 7 (24), 20043-20050.
2. Zhang, K.; Liu, Y.; Wang, B.; Yu, F.; Yang, Y.; Xing, L.; Hao, J.; Zeng, J.; Mao, B.*; Shi, W.*; Yuan, S., Three-dimensional interconnected MoS2 nanosheets on industrial 316L stainless steel mesh as an efficient hydrogen evolution electrode. Int. J. Hydrogen Energy 2019, 44 (3), 1555-1564.
3. Yang, Y.; Mao, B.*; Gong, G.; Li, D.; Liu, Y.; Cao, W.; Xing, L.; Zeng, J.; Shi, W.*; Yuan, S., In-situ growth of Zn–AgIn5S8 quantum dots on g-C3N4 towards 0D/2D heterostructured photocatalysts with enhanced hydrogen production. Int. J. Hydrogen Energy 2019, 44 (30), 15882-15891.
4. Yang, Y.; Liu, Y.; Mao, B.*; Luo, B.; Zhang, K.; Wei, W.; Kang, Z.; Shi, W.*; Yuan, S., Facile Surface Engineering of Ag-In-Zn-S Quantum Dot Photocatalysts by Mixed-Ligand Passivation with Improved Charge Carrier Lifetime. Catal. Lett. 2019, 149 (7), 1800-1812.
5. Tan, L.; Liu, Y.; Mao, B.*; Luo, B.; Gong, G.; Hong, Y.; Chen, B.; Shi, W. *, Effective bandgap narrowing of Cu-In-Zn-S quantum dots for photocatalytic H2 production via cocatalyst-alleviated charge recombination. Inorganic Chemistry Frontiers 2018, 5 (1), 258-265.
6. Mao, B.; Wang, B.; Yu, F.; Zhang, K.; Zhang, Z.; Hao, J.; Zhong, J.; Liu, Y.*; Shi, W.*, Hierarchical MoS2 nanoflowers on carbon cloth as an efficient cathode electrode for hydrogen evolution under all pH values. International Journal of Hydrogen Energy 2018, 43 (24), 11038-11046.
7. Wang, B.; Liu, Y.*; Shen, H.*; Mao, B.*, Synergetic Optimization via Composition-Dependent Nanostructuring in Co-Mo-S Electrocatalysts for Efficient Hydrogen Evolution in Alkaline Solution. International Journal of Electrochemical Science 2018, 13 (4), 3501-3515.
8. Gong, G.; Liu, Y.; Mao, B.*.; Tan, L.; Yang, Y.; Shi, W.*, Ag doping of Zn-In-S quantum dots for photocatalytic hydrogen evolution: Simultaneous bandgap narrowing and carrier lifetime elongation. Applied Catalysis B: Environmental 2017, 216, 11-19.
9. Shi, W.; Guo, F.; Wang, H.; Guo, S.; Li, H.; Zhou, Y.; Zhu, C.; Liu, Y.; Huang, H.; Mao, B.*; Liu, Y.*; Kang, Z.*, New Insight of Water-Splitting Photocatalyst: H2O2-Resistance Poisoning and Photothermal Deactivation in Sub-micrometer CoO Octahedrons. ACS Applied Materials & Interfaces 2017, 9 (24), 20585-20593.
10. Gong, G.; Liu, Y.; Mao, B.*; Wang, B.; Tan, L.; Li, D.; Liu, Y.; Shi, W.*, Mechanism study on the photocatalytic efficiency enhancement of MoS2 modified Zn-AgIn5S8 quantum dots. RSC Advances 2016, 6 (101), 99023-99033.
11. Mao, B. D.; Chuang, C. H.; Zhu, J. J.; Burda, C., Near-infrared Emitting AgInS2/ZnS Nanocrystals. Journal of Physical Chemistry C 2014, 118, 13883. (SCI, IF=4.835)
12. Mao, B.; Yuan, Y.; Shao, Y.; Yang, B.; Xiao, Z.; Huang, J., Alkylamine assisted ultrasound exfoliation of MoS2 naosheets and organic photovoltaic application. Nanoscience and Nanotechnology Letters 2014, 6, 685-691. (SCI, IF=1.444)
13. Mao, B. D.; Dong, Q.; Exstrom, C. L.; Huang, J., Surface thermal stability of iron pyrite nanocrystals: Role of capping ligands. Thin Solid Films 2014, 562, 361. (SCI, IF=1.867)
14. Mao, B. D.; Dong, Q.; Xiao, Z.; Exstrom, C. L.; Darveau, S. A.; Webber, T. E.; Lund, B. D.; Huang, H; Kang, Z.; Huang, J., Zinc Alloyed Iron Pyrite Ternary Nanocrystals for Band Gap Broadening. Journal of Materials Chemistry A 2013, 1, 12060-12065 (封底文章)
15. Mao, B. D.; Chuang, C. H.; Lu, F.; Sang, L. X.; Zhu, J. J.; Burda, C., Study of the Partial Ag-to-Zn Cation Exchange in AgInS2/ZnS Nanocrystals. Journal of Physical Chemistry C 2013, 117 , 648-656. (ESI高被引論文)
16. Mao, B. D.; Chuang, C. H.; Wang, J. W.; Burda, C., Synthesis and photophysical properties of ternary I-III-VI AgInS2 nanocrystals, Journal of Physical Chemistry C 2011, 115, 8945-8954. (被引180餘次)
17. Mao, B. D.; Kang, Z. H.; Wang, E. B.; Tian, C. G.; Zhang, Z. M.; Wang, C. L.; Song, Y. L.; Li, M. Y., Template free fabrication of hollow hematite spheres via a one-pot polyoxometalate-assisted hydrolysis process. Journal of Solid State Chemistry 2007, 180, 489. (SCI, IF=2.2)
18. Mao, B. D.; Kang, Z. H.; Wang, E. B.; Lian, S. Y.; Gao, L.; Tian, C. G.; Wang, C. L., Synthesis of magnetite octahedrons from iron powders through a mild hydrothermal method. Materials Research Bulletin 2006, 41, 12, 2226. 11. (SCI, IF=1.968)
19. Mao, B. D.; Kang, Z. H.; Wang, E. B.; Tian, C. G.; Zhang, Z. M.; Wang, C. L.; Li, S. H., Polyoxometalate-assisted one-step fabrication of porous nanorods of beta-FeOOH and the facile transition to hematite. Chemistry Letters 2007, 36, 70. (SCI, IF=1.542)
20. Mao, B. D.; Kang, Z. H.; Wang, E. B.; Tian, C. G.; Wang, C. L.; Lan, Y., Fabrication of high quality carbon nanotubes with a simple ethanol-assisted arc discharge process. Journal of Nanoscience and Nanotechnology 2006, 6, 1392. (SCI, IF=1.339)
21. Yu, Y.-Y.; Fang, Z.; Gao, L.; Song, H.; Yang, L.; Mao, B.; Shi, W.; Yong, Y.-C., Engineering of bacterial electrochemical activity with global regulator manipulation. Electrochemistry Communications 2018, 86, 117-120.
22. Liu, Z.; Ma, H.; Liu, J.; Xing, L.; Cheng, L.; Yang, J.; Mao, B.; Zhang, Q., A low-cost clay-based heterogeneous Fenton-like catalyst: Activation, efficiency enhancement, and mechanism study. Asia-Pacific Journal of Chemical Engineering 2018, 13 (1).
23. Liu, Y.; Niu, H.; Gu, W.; Cai, X.; Mao, B.; Li, D.; Shi, W., In-situ construction of hierarchical CdS/MoS 2 microboxes for enhanced visible-light photocatalytic H 2 production. Chemical Engineering Journal 2018, 339, 117-124.
24. Shen, H.; Wang, J.; Jiang, J.; Luo, B.; Mao, B.; Shi, W., All-solid-state Z-scheme system of RGO-Cu2O/Bi2O3 for tetracycline degradation under visible-light irradiation. Chemical Engineering Journal 2017, 313, 508-517.
25. Hong, Y.; Li, C.; Li, D.; Fang, Z.; Luo, B.; Yan, X.; Shen, H.; Mao, B.; Shi, W., Precisely tunable thickness of graphitic carbon nitride nanosheets for visible-light-driven photocatalytic hydrogen evolution. Nanoscale 2017, 9 (37), 14103-14110.
26. Hao, J.; Yang, W.; Hou, J.; Mao, B.; Huang, Z.; Shi, W., Nitrogen doped NiS2 nanoarrays with enhanced electrocatalytic activity for water oxidation. Journal of Materials Chemistry A 2017, 5 (34), 17811-17816.
27. Chen, B.; Fan, W.; Mao, B.; Shen, H.; Shi, W., Enhanced photoelectrochemical water oxidation performance of a hematite photoanode by decorating with Au-Pt core-shell nanoparticles. Dalton Transactions 2017, 46 (46), 16050-16057.
28. Jiang, J. H.; Liu, K. L.; Fan, W. Q.; Li, M.; Liu, Y.; Mao, B.; Bai, H. Y.; Shen, H. Q.; Yuan, S. L.; Shi, W. D., Electrospinning synthesis and photocatalytic property of Fe2O3/MgFe2O4 heterostructure for photocatalytic degradation of tetracycline. Mater. Lett. 2016, 176, 1-4.
29. Jiang, J.; Fan, W.; Zhang, X.; Bai, H.; Liu, Y.; Huang, S.; Mao, B.; Yuan, S.; Liu, C.; Shi, W., Rod-in-tube nanostructure of MgFe2O4: electrospinning synthesis and photocatalytic activities of tetracycline. New J. Chem. 2016, 40 (1), 538-544.
30. Xiao, Z., Dong, Q., Sharma, P., Yuan, Y., Mao, B. D., Tian, W., Gruverman, A. and Huang, J., Synthesis and the Application of Ferroelectric P(VDF-TrFE) Nanoparticles in Organic Photovoltaic Devices for High Efficiency, Advanced Energy Materials, 2013, 3,1581–1588. (SCI, IF=10.0, 封底文章)
31. Sang, L.; Gole, J. L.; Wang, J.; Brauer, J. I.; Mao, B. D.; Prokes, S. M.; Burda, C., Phase Transformation and Charge Transfer in Heavily Iron Ion Doped Titanium Oxide and Oxynitride Nanocolloids. The Journal of Physical Chemistry C 2013, 117 (29), 15287–15294. (SCI, IF=4.835)
32. Wang, J.; Mao, B. D.; White, M. G.; Burda, C.; Gole, J. L., Interactive metal ion-silicon oxidation/reduction processes on fumed silica. Rsc Advances 2012, 2, (27), 10209-10216. (SCI, IF=2.56)
33. Dyck, J. S.; Mao, B. D.; Wang, J. W.; Dorroh, S.; Burda, C., Effect of Sintering on the Thermoelectric Transport Properties of Bulk Nanostructured Bi0.5Sb1.5Te3 Pellets Prepared by Chemical Synthesis. Journal of Electronic Materials 2012, 41, (6), 1408-1413. (SCI, IF=1.6)
34. Wang, J.; Mao, B. D.; Gole, J. L.; Burda, C., Visible-light-driven reversible and switchable hydrophobic to hydrophilic nitrogen-doped titania surfaces: correlation with photocatalysis. Nanoscale 2010, 2, 10, 2257. (SCI, IF=6.2)
35. Song, Y. L.; Wang, E. B.; Tian, C. G.; Mao, B. D.; Wang, C. L., Semiconductor/metal nanocomposites formed by in situ reduction method in multilayer thin films. Materials Research Bulletin 2009, 44, 1, 30. (SCI, IF=1.91)
36. Wang, C. L.; Wang, E. B.; Lan, Y.; Li, Q. Y.; Mao, B. D.; Tian, C. G., Nucleation and growth of ZnO nanocrystals in polymer films. Thin Solid Films 2008, 516, 18, 6058. (SCI, IF=1.89)
37. Li, S. H.; Wang, E. B.; Tian, C. G.; Mao, B. D.; Song, Y. L.; Wang, C. L.; Xu, L., In situ fabrication of amino acid-polyoxometalate nanoparticle functionalized ultrathin films and relevant electrochemical property study. Materials Research Bulletin 2008, 43, 11, 2880. (SCI, IF=1.91)
38. Li, S. H.; Wang, E. B.; Tian, C. G.; Mao, B. D.; Kang, Z. H.; Li, Q. Y.; Sun, G. Y., Jingle-bell-shaped ferrite hollow sphere with a noble metal core: Simple synthesis and their magnetic and antibacterial properties. Journal of Solid State Chemistry 2008, 181, 7, 1650. (SCI, IF=2.04)
39. Li, Q. Y.; Kang, Z. H.; Mao, B. D.; Wang, E. B.; Wang, C. L.; Tian, C. G.; Li, S. H., One-step polyoxometalate-assisted solvothermal synthesis of ZnO microspheres and their photoluminescence properties. Materials Letters 2008, 62, 15, 2531.(SCI, IF=2.224)
40. Zhang, Z. M.; Wang, E. B.; Qi, Y. F.; Li, Y. G.; Mao, B. D.; Su, Z. M., Synthesis, characterization, and crystal structures of double-cubane-substituted and asymmetric penta-Ni-substituted dimeric polyoxometalates. Crystal Growth & Design 2007, 7, 7, 1305. (SCI, IF=4.69)
41. Wang, C. L.; Mao, B. D.; Wang, E. B.; Kang, Z. H.; Tian, C. G., Solution synthesis of ZnO nanotubes via a template-free hydrothermal route. Solid State Communications 2007, 141, 11, 620. (SCI, IF=1.53)
42. Tian, C. T.; Mao, B. D.; Wang, E. B.; Kang, Z. H.; Song, Y. L.; Wang, C. L.; Li, S. H.; Xu, L., One-step, size-controllable synthesis of stable Ag nanoparticles. Nanotechnology 2007, 18, 28. (SCI, IF=3.84)
43. Tian, C. G.; Mao, B. D.; Wang, E. B.; Kang, Z. H.; Song, Y. L.; Wang, C. L.; Li, S. H., Simple strategy for preparation of core colloids modSCI, IFied with metal nanoparticles. Journal of Physical Chemistry C 2007, 111, 9, 3651. (SCI, IF=4.835)
44. Lan, Y.; Wang, E.; Kang, Z. H.; Wang, C. L.; Mao, B. D.; Tian, C. U.; Xu, L.; Li, M. Y., Facile and controllable synthesis of polyoxometalate nanorods within polyelectrolyte matrix. Journal of Colloid and Interface Science 2007, 316, 893. (SCI, IF=3.17)
45. Lan, Y.; Mao, B. D.; Wang, E. B.; Song, Y. H.; Kang, Z. H.; Wang, C. L.; Tian, C. G.; Zhang, C.; Xu, L.; Li, Z., In-situ fabrication of hybrid polyoxometalate nanoparticles composite films. Thin Solid Films 2007, 515, 7-8, 3397. (SCI, IF=1.89)
46. Tian, C. G.; Wang, E. B.; Kang, Z. H.; Mao, B. D.; Zhang, C.; Lan, Y.; Wang, C. L.; Song, Y. L., Synthesis of Ag-coated polystyrene colloids by an improved surface seeding and shell growth technique. Journal of Solid State Chemistry 2006, 179, 11, 3270. (SCI, IF=2.04)
47. Tian, C. G.; Kang, Z. H.; Wang, E. B.; Mao, B. D.; Li, S. H.; Su, Z. M.; Xu, L., 'One-step' controllable synthesis of Ag and Ag2S nanocrystals on a large scale. Nanotechnology 2006, 17, 22, 5681. (SCI, IF=3.84)
48. Kang, Z. H.; Wang, E. B.; Mao, B. D.; Su, Z. M.; Tian, C. G.; Xu, L., Controlled cutting carbon nanotube with polyoxometalates assisted renewable method. Materials Letters 2006, 60, 17-18, 2266. (SCI, IF=2.224)
49. Kang, Z. H.; Wang, E. B.; Mao, B. D.; Su, Z. M.; Gao, L.; Niu, L.; Shan, H. Y.; Xu, L., Heterogeneous hydroxylation catalyzed by multi-walled carbon nanotubes at low temperature. Applied Catalysis A-General 2006, 299, 212. (SCI, IF=3.41)
50. Kang, Z. H.; Wang, E. B.; Mao, B. D.; Su, Z. M.; Chen, L.; Xu, L., Obtaining carbon nanotubes from grass. Nanotechnology 2005, 16, 8, 1192. (SCI, IF=3.84)
51. Kang, Z. H.; Wang, E. B.; Lian, S. Y.; Mao, B. D.; Chen, L.; Xu, L., Surfactant-assisted electrochemical method for dendritic silver nanocrystals with advanced structure. Materials Letters 2005, 59, 18, 2289. (SCI, IF=2.224)
52. Gao, L.; Wang, E. B.; Kang, Z. H.; Song, Y. L.; Mao, B. D.; Xu, L., Layer-by-layer assembly of polyoxometalates into microcapsules. Journal of Physical Chemistry B 2005, 109, 35, 16587. (SCI, IF=3.607)
53. Kang, Z. H.; Wang, E. B.; Mao, B. D.; Su, Z. M.; Lei, G.; Lian, S. Y.; Lin, X., Controllable fabrication of carbon nanotube and nanobelt with a polyoxometalate-assisted mild hydrothermal process. Journal of the American Chemical Society 2005, 127, 18, 6534. (SCI, IF=10.677)
代表性專利:
1. J. Huang, B. Mao, Iron pyrite nanocrystals, US Patent (美國專利): 20,130,119,346, 2013.
2. 毛寶東、宮關、施偉東、王勃、譚麗麗,一種制備四元硫化物量子點基異質結高效光催化劑方法,中國專利:201610048468.7,2016。
3. 毛寶東、 宮關、 劉豔紅、 陳天俊、 王勃、譚麗麗,一種制備Ag:ZnIn2S4發光量子點和光催化劑的方法,中國專利:201610273320.3,2016。
歡迎有志于納米材料(特别是量子點)和新能源(光催化/電催化)研究的同學加入!