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博士生导师
杨春成
基本情况
姓名: 杨春成
性别:
职称: 教授
所在系别: 金属材料工程系
是否博导:
最高学历: 研究生
最高学位: 博士
Email:
详细情况
所在学科专业: 材料学
所研究方向: 微纳尺度能源材料、金属基复合材料
讲授课程: 《材料科学基础》
《教授专题讲座》
教育经历: Ph.D. in Material Science, 2001.09-2006.06, School of Materials Science and Engineering, Jilin University, Changchun, China.

B.S. in Materials Science and Engineering, 1997.09-2001.06, School of Materials Science and Engineering, Jilin University, Changchun, China.
工作经历: 2014.03- Professor, School of Materials Science and Engineering, Jilin University, Changchun, China.

2011.01-2014.01, The University of Sydney Postdoctoral Fellow, School of Aerospace, Mechanical and Mechatronic Engineering, The University of Sydney, Sydney, Australia.

2008.01-2011.01, Australian Postdoctoral Fellow, School of Materials Science and Engineering, The University of New South Wales, Sydney, Australia.

2006.09-2008.01, Visiting Research Associate, School of Materials Science and Engineering, The University of New South Wales, Sydney, Australia.
科研项目: (1). National Natural Science Foundation of China, 2017.01-2020.12, 720,000 RMB.

(2). Natural Science Foundation of Jilin Province, 2016.01-2018.12, 100,000 RMB.

(3). ChangBai Mountain Scholars Program of Jilin Province, 2014.09-2017.08, 2,000,000 RMB.

(4). The University of Sydney Postdoctoral Fellowship, 2011.01-2013.12, A$ 350,000.

(5). Australian Research Council (ARC) Discovery Project, 2008.01-2010.12, A$ 330,000.
学术论文: Note: *: Corresponding author; #: Contributed equally.

Refereed journal articles
[1] C. C. Yang#, C. C. Wang#, M. M. Li, Q. Jiang*, "A start of the renaissance for nickel metal hydride batteries: a hydrogen storage alloy series with ultra-long cycle life", J. Mater. Chem. A 5, 1145-1152 (2017).
[2] L. X. Chen, Y. F. Zhu, C. C. Yang*, Z. W. Chen, D. M. Zhang, Q. Jiang*, "A new strategy to improve the high-rate performance of hydrogen storage alloys with MoS2 nanosheets", J. Power Sources 333, 17-23 (2016).
[3] R. C. Cui, C. C. Yang*, M. M. Li, B. Jin, X. D. Ding*, Q. Jiang, "Enhanced high-rate performance of ball-milled MmNi3.55Co0.75Mn0.4Al0.3 hydrogen storage alloys with graphene nanoplatelets", J. Alloys Compd., 693, 126-131 (2017).
[4] P. M. Xin, B. Jin*, H. Li, X. Y. Lang, C. C. Yang, W. Gao, Y. F. Zhu, W. Q. Zhang*, S. X. Dou, Q. Jiang, "Facile synthesis of sulfur-polypyrrole as cathode for lithium-sulfur batteries", ChemElectroChem, DOI: 10.1002/celc.201600479.
[5] H. H. Wang, B. Jin*, L. L. Li, X. Y. Lang, C. C. Yang, W. Gao, Y. F. Zhu, Z. Wen*, Q. Jiang, “Lithium storage in ZnFe2O4/C as anode materials for lithium-ion batteries”, Energy Tech., DOI: 10.1002/ente.201600404.
[6] L. L. Li, B. Jin*, X. Y. Lang, C. C. Yang, W. Gao, Y. F. Zhu, S. X. Dou, Q. Jiang*, "Facile synthesis of NixZn1-xFe2O4 (x=0, 0.25, 0.5, 0.75, 1) as anode materials for lithium storage", ChemPlusChem, DOI: 10.1002/cplu.201600338R1.
[7] X. H. Zhang, B. Jin*, L. L. Li, T. Cheng, H. H. Wang, P. M. Xin, X. Y. Lang, C. C. Yang, W. Gao, Y. F. Zhu, Q. Jiang*, "Electrochemical (de)lithiation of tubular polypyrrole-derived carbon/sulfur composite in lithium-sulfur batteries", J. Electroanal. Chem. 780, 26-31 (2016).
[8] M. M. Li, C. C. Yang*, C. C. Wang, Z. Wen, Y. F. Zhu, M. Zhao, J. C. Li, W. T. Zheng, J. S. Lian, Q. Jiang*, "Design of hydrogen storage alloys/nanoporous metal hybrid electrodes for nickel-metal hydride batteries", Sci. Rep. 6, 27601 (2016).
[9] M. M. Li, C. C. Yang*, W. T. Jing, B. Jin, X. Y. Lang, Q. Jiang, “In situ grown Co3O4 on hydrogen storage alloys for enhanced electrochemical performance”, Int. J. Hydrogen Energy 41, 8946-8953 (2016).
[10] M. M. Li, C. C. Yang*, L. X. Chen, Q. Jiang*, “Hydrogen storage alloys/reduced graphite oxide: an efficient hybrid electrode with enhanced high-rate dischargeability”, Electrochim. Acta 200, 59-65 (2016).
[11] N. Zhao, Y. Q. He*, C. C. Yang*, “A new approach to construct bulk and size-dependent continuous binary solution phase diagrams of alloys”, RSC Adv. 5, 96323-96327 (2015).
[12] C. C. Yang*, Y.-W. Mai, “Thermodynamics at the nanoscale: a new approach to the investigation of unique physicochemical properties of nanomaterials”, Mater. Sci. Eng. R 79, 1-40 (2014).
[13] C. C. Yang*, Y.-W. Mai, “Size, dimensionality, and constituent stoichiometry dependence of physicochemical properties in nano-sized binary alloys”, J. Phys. Chem. C 117, 2421-2426 (2013).
[14] C. C. Yang*, Y.-W. Mai, “Size-dependent absorption properties of CdX (X = S, Se, Te) quantum dots”, Chem. Phys. Lett. 535, 91-93(2012).
[15] C. C. Yang*, S. Li, “Basic principles for rational design of high-performance nanostructured silicon-based thermoelectric materials”, ChemPhysChem 12, 3614-3618 (2011).
[16] C. C. Yang*, S. Li, “Size-dependent lattice thermal conductivity of nanostructured bulk semiconductors”, J. Electron. Mater. 40, 953-956 (2011).
[17] C. C. Yang*, S. Li, “Size-, dimensionality-, and composition-dependent Debye temperature of monometallic and bimetallic nanocrystals in the deep nanometer scale”, Phys. Status Solidi B 248, 1375-1378 (2011).
[18] L. d’Abbadie, T. T. Tan, C. C. Yang*, S. Li, “Nucleation and growth mechanisms of ZnO heterostructures controlled by temperature and pressure of CVD”, Mater. Sci. Eng. B 167, 31-35 (2010).
[19] C. C. Yang*, S. Li, “Cohesive energy: the intrinsic dominant of thermal stability and structural evolution in Sn from size scales of bulk to dimer”, J. Phys. Chem. C 113, 14207-14212 (2009).
[20] C. C. Yang*, S. Li, “Size-dependent formation enthalpy of nanoclusters”, J. Appl. Phys. 106, 023519 (2009).
[21] G. M. Yang, C. C. Yang*, Q. Xu, W. T. Zheng*, S. Li, “Enhancement mechanism of field electron emission properties in hybrid carbon nanotubes with tree- and wing-like features”, J. Solid State Chem. 182, 3393-3398 (2009).
[22] G. M. Yang, Q. Xu, X. Wang, H. W. Tian, W. T. Zheng*, C. C. Yang, S. Li, “Enhanced field electron emission properties of hybrid carbon nanotubes synthesized by RF-PECVD”, Chem. Vapor Depos. 15, 291-295 (2009).
[23] C. C. Yang*, S. Li, “Size-dependent Raman red shifts of semiconductor nanocrystals”, J. Phys. Chem. B 112, 14193-14197 (2008).
[24] C. C. Yang*, S. Li, “Size-dependent phase stability of silver nanocrystals”, J. Phys. Chem. C 112, 16400-16404 (2008).
[25] Q. Jiang*, C. C. Yang, “Size effect on the phase stability of nanostructures”, Curr. Nanosci. 4, 179-200 (2008).
[26] C. C. Yang*, S. Li, “Size, dimensionality, and constituent stoichiometry dependence of bandgap energies in semiconductor quantum dots and wires”, J. Phys. Chem. C 112, 2851-2856 (2008).
[27] C. C. Yang*, J. Armellin, S. Li, “Determinants of thermal conductivity and diffusivity in nanostructural semiconductors”, J. Phys. Chem. B 112, 1482-1486 (2008).
[28] C. C. Yang*, S. Li, “Size-dependent temperature-pressure phase diagram of carbon”, J. Phys. Chem. C 112, 1423-1426 (2008).
[29] C. C. Yang*, S. Li, J. Armellin,“Size and temperature dependence of phase stability in nanocrystalline pentacene thin films”, J. Phys. Chem. C 111, 17512-17515 (2007).
[30] C. C. Yang*, S. Li, “Quasi-isochoric superheating of nanoparticles embedded in rigid matrixes”, J. Phys. Chem. B 111, 7318-7320 (2007).
[31] C. C. Yang*, S. Li, “Investigation of cohesive energy effects on size-dependent physical and chemical properties of nanocrystals”, Phys. Rev. B 75, 165413 (2007).
[32] C. C. Yang, Q. Jiang*, “Size effect on the bandgap of semiconductor nanocrystals”, Solid State Phenom. 121-123, 1069-1072 (2007).
[33] C. C. Yang, M. X. Xiao, W. Li, Q. Jiang*, “Size effects on Debye temperature, Einstein temperature, and volume thermal expansion coefficient of nanocrystals”, Solid State Commun. 139, 148-152 (2006).
[34] C. C. Yang, Q. Jiang*, “Size effect on the bandgap of II-VI semiconductor nanocrystals”, Mater. Sci. Eng. B 131, 191-194 (2006).
[35] C. C. Yang, Q. Jiang*, “Size and interface effects on critical temperatures of ferromagnetic, ferroelectric and superconductive nanocrystals”, Acta Mater. 53, 3305-3311 (2005).
[36] C. C. Yang, Q. Jiang*, “Effect of pressure on melting temperature of carbon dioxide”, J. Chem. Thermodyn. 37, 1019-1022 (2005).
[37] C. C. Yang, Q. Jiang*, “Effect of pressure on melting temperature of silicon and germanium”, Mater. Sci. Forum 475-479, 1893-1896 (2005).
[38] C. C. Yang, Q. Jiang*, “Temperature-pressure phase diagram of germanium determined by Clapeyron equation”, Scripta Mater. 51, 1081-1085 (2004).
[39] C. C. Yang, J. C. Li, Q. Jiang*, “Temperature-pressure phase diagram of silicon determined by Clapeyron equation”, Solid State Commun. 129, 437-441 (2004).
[40] C. C. Yang, G. Li, Q. Jiang*, “Effect of pressure on melting temperature of silicon”, J. Phys.: Condens. Matter 15, 4961-4965 (2003).
[41] C. C. Yang, J. C. Li, Q. Jiang*, “Effect of pressure on melting temperature of silicon determined by Clapeyron equation”, Chem. Phys. Lett. 372, 156-159 (2003).
[42] Q. Jiang*, C. C. Yang, J. C. Li, “Size-dependent melting temperature of polymers”, Macromol. Theory Simul. 12, 57-60 (2003).
[43] Q. Jiang*, C. C. Yang, J. C. Li, “Melting enthalpy depression of nanocrystals”, Mater. Lett. 56, 1019-1021 (2002).
著作教材: Note: *: Corresponding author

Scholarly book chapters
1. C. C. Yang*, S. Li, “Size dependence of optical properties in semiconductor nanocrystals”, in “Size effects in metals, semiconductors and inorganic compounds”, edited by G. Guisbiers and D. Ganguli, Trans Tech Publications, Switzerland, Key Eng. Mater. Vol. 444, pp. 133-162 (2010).
2. Q. Jiang*, C. C. Yang, “Effect of size and pressure on phase-transition temperature” in “Trends in Vacuum Science & Technology”, Research Trends, Trivandrum, India, Vol. 6, pp. 69-90 (2004).
获奖情况: (1). 2014, Distinguished Professor of the first ChangBai Mountain Scholars Program of Jilin Province, China.

(2). 2011, The University of Sydney Postdoctoral Fellowship, Australia.

(3). 2008, Australian Postdoctoral Fellowship (APD), Australia.

(4). 2008, Excellence in PhD Thesis Award of Jilin Province, China.

(5). 2006, First Prize for Progress in Science and Technology, Jilin Province, China (as the ninth participant).

所指导的学生获奖情况:

李苗苗 2016年 获研究生国家奖学金(博士)
崔荣超 2016年 获研究生国家奖学金(硕士)
陈丽新 2017年 获“精英杯”学术成果大奖赛一等奖
李苗苗 2017年 获“精英杯”学术成果大奖赛二等奖
社会兼职: Research program assessor for:
• 国家自然科学基金委员会(National Natural Science Foundation of China)
• 青年长江通讯评审
• Australian Research Council
• Croatian Science Foundation
• 吉林省教育厅
Reviewer for 19 international journals

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地址:吉林省长春市人民大街5988号  邮编:130022 电话:0431-85094375  E-mail:cailiao@jlu.edu.cn