孙成华,男,1976年11月出生,博士,成都大学特聘教授,博士生导师。本科毕业于中南大学材料学院,后获得中国科学院博士学位,澳大利亚联邦基金会未来之星研究员。
联系地址:四川省成都市外东十陵成都大学8722太阳集团
邮编:610106
研究领域
孙教授的研究集中在计算机辅助材料设计和计算化学领域,发展高性能催化剂用以面向清洁能源与环境,包括太阳能制氢、高效CO2捕捉与转化、室温合成氨、大功率充放电锂电池、储氢材料,特别在二氧化钛光催化剂的高能面方面一系列国际公认和高度评价的研究成果。主持和参与科研项目10项, 总经费额度超过300万澳元, 外加约2000万小时的大型超级并行计算机机时。资助主要来源于澳大利亚基金会ARC (Australian Research Council)、 昆士兰政府、昆士兰大学和CSIRO、中国国家自然科学基金等。
科研成果
(一) 获得的重要奖项
[1] 2013年获得澳大利亚基金委Smart Future Fellow (未来智慧研究员);
[2] 2010年昆士兰大学杰出研究奖;
[3] 2009年昆士兰政府未来智慧学者;
[4] 2009年昆士兰政府国际学者[由昆士兰政府颁发给青年学者,并支助其前往世界知名学府深造]
[5] 2006年中科院院长优秀奖。
(二) 代表性论文论文(2013年至今):
[1] W.T. Yuan, Y. Wang, C. Sun. In-situ TEM Observation of Dissolution and Regrowth Dynamics of MoO₂ Nanowires under Oxygen. Accepted by Nano Research.
[2] Z. Wang, Y. Yin, T. Williams, H. Wang, C. Sun* and X. Zhang. Metal Link: A Strategy to Combine Graphene and Titanium Dioxide for Better Hydrogen Production. Accepted by Int. J. Hydrogen Energy.
[3] Y. Jiang, H.B. Li, Z. Wu, Y. Wang, C.H. Sun* and Z. Zhang. Hydrogen-Induced Surface Faceting for PdCu Nanocrystals during in situ Annealing at Atmospheric Pressure. Angew Chem. Inter. Ed. 55, 12427-12430 (2016).
[4] M. Han, G. Xu, D.S. Li, L.M. Azofra, J. Zhao, B. Chen, C. Sun*. A Terbium-Organic Framework Material for Highly Sensitive Sensing of Fe3+ in Aqueous and Biological Systems: Experimental Studies and Theoretical Analysis. ChemistrySelect. 1, 3555-3561 (2016).
[5] L.M. Azofra, N. Li, D. MacFarlane, C.H. Sun. Promising prospects for 2D d2-d4 M3C2 transition metal carbides (MXenes) in N2 capture and conversion into ammonia. Energy Environ. Sci. 9, 2545-2549 (2016).
[6] S.Y. Qiu, L. M. Azofra, D. MacFarlane, C.H. Sun. Unraveling the Role of Ligands in the Hydrogen Evolution Mechanism Catalyzed by [NiFe] Hydrogenases. ACS Catalysis. 6, 5541-5548 (2016).
[7] L. M. Azofra, D. MacFarlane, C.H. Sun. On the DFT basis of the planar vs. corrugated graphite-like carbon nitride (g-C3N4) and their role in the catalytic performance of CO2 conversion. Phys. Chem. Chem. Phys., 18, 18507-18514 (2016).
[8] S.Y. Qiu, L.M. Azofra, D. MacFarlane, C.H. Sun. Why proton is transformed into hydride by [NiFe] hydrogenases? An intrinsic reactivity analysis based on Conceptual DFT. Phys. Chem. Chem. Phys. 18, 15360-15374 (2016).
[9] J.F. Zhou, X. Tang, W. Luo, C.Z. Wu, Y. Zhang, W.Z. Ding, and C.H. Sun. The migration behavior of sulfur impurity contained in the dual-phase membrane of Ce0.9Gd0.1O2-δ - SrCo0.8Fe0.1Nb0.1O3-δ under CO2 atmosphere. J. Memerane Sci. 511, 162-169 (2016).
[10] H.T. Li, C.H. Sun, R. Vijayaraghavan, F. Zhou, X. Zhang, D. MacFarlane. Long lifetime photoluminescence in N, S co-doped carbon quantum dots from an ionic liquid and their applications in ultrasensitive detection of pesticides. Carbon. 104, 33-39 (2016).
[11] L.M. Azofra, D. MacFarlane, C.H. Sun. Intensified p-Hole in Beryllium-Doped Boron Nitride Meshes: Its Determinant Role in CO2 Conversion into Hydrocarbon Fuels. Chem. Comm., 52, 3548-3551 (2016).
[12] Z.F. Zhang, Y. Wang, H.B. Li, W.T. Yuan, X. Zhang, C.H. Sun, Z. Zhang. Atomic-scale observation of vapor-solid nanowire growth via oscillatory mass transport. ACS Nano. 10, 763-769 (2016).
[13] C.H. Ng, C.A. Ohlin, S. Qiu, C.H. Sun, B. Winther-Jensen. Mechanistic studies of the photo-electrochemical hydrogen evolution reaction on poly(2,2'-bithiophene)PBTh. Catal. Sci. Tech. 6, 3253-3262 (2016).
[14] X. Tang, X. Zhang; W. Luo, C.Z. Wu, Y. Zhang; W.Z. Ding, C.H. Sun. Fe-doping effects on the CO2 tolerance of Ba0.8La0.2Co0.88Nb0.12O3-δ perovskite oxygen permeable membrane. J. Mater. Sci. 51, 3971-3978 (2016).
[15] W.T. Yuan, Y. Wang, H. Li, H. Wu, Z. Zhang, A. Selloni, C. Sun. Real time observation of the reconstructing TiO2 (001) surface. Nano Lett. 16, 132-137 (2016).
[16] D.L. He, Y. Wang, C.Z. Wu, Q. Li, W. Ding, C.H. Sun. Dehydrogenation of MgH2 Confined in Phosphorous-Modified Carbon Framework. Appl. Phys. Lett. 107, 243907 (2015).
[17] C. Wu, J. Zhou, X. Zhang, X. Tang, Y. Zhang, W. Ding, C.H. Sun. A study on the degradation and recovery mechanisms of perovskite Ba1.0Co0.7Fe0.2Nb0.1O3-δ membrane under CO2-containing atmosphere. J. Phys. Chem. C. 119, 24229-24237 (2015).
[18] J.F. Zhou, C.Z. Wu, X. Tang, D. L. He, Y. Zhang, W. Ding, Y.G. Jin, C.H. Sun. Oxygen permeability and CO2-tolerance of Ce0.9Gd0.1O2-δ-SrCo0.8Fe0.1Nb0.1O3-δ dual-phase membrane. J. Alloy Comp. 646, 204-210 (2015).
[19] H.Y. Zhao, C.H. Sun, Z. Jin, D.W. Wang, Z.G. Chen, G.S. Zhu, X.D. Yao. Carbon for the oxygen reduction reaction: A defect mechanism. J. Mater. Chem. A 3, 11736 (2015).
[20] Y.G. Jin, C.H. Sun*, S. Su. Experimental and theoretical study of the oxidation of ventilation air methane over Fe2O3 and CuO. Phys. Chem. Chem. Phys. 17, 16277 (2015).
[21] H.T. Li, C.H. Sun, F.L. Zhou, M. Ali, X. Zhang, D.R. MacFarlane. Sulfated carbon quantum dots as efficient visible-light enhanced acid catalyst for room temperature ring opening of epoxides. Angew. Chem. Int. Ed. 54, 8420 (2015).
[22] C.Z. Wu, Y. Gai, J. Zhou, X. Tang, Y. Zhang, W. Ding and C. H. Sun. Structural stability and oxygen permeability of BaCo1-xNbxO3-d ceramic membranes for air separation. J. Alloy Comp. 638, 38-43 (2015).
[23] Y. Jia, C.H. Sun, Y. Peng, W.Q. Fang, X. Yan, D. Yang, J. Zou, S.S. Mao, X.D. Yao. Metal-Organic-Framework-Derived Formation of Metallic Nanocatalyst (Ni) Through Mechanochemical Milling for Hydrogen Storage in Magnesium. J. Mater. Chem. A, 3, 8294-8299 (2015). (Journal Cover)
[24] L. Schwertmann, A. Grünert, A. Pougin, C.H. Sun, M. Wark and R. Marschall. Understanding the Influence of Lattice Composition on the Photocatalytic Activity of Defect-Pyrochlore-Structured Semiconductor Mixed Oxides. Adv. Func. Mater. 25, 905-912 (2015).
[25] X. Zhu, H. Gong, L. Yang, L. Li, C.H. Sun. Non uniform shrinkages of double walled carbon nanotube as induced by electron beam irradiation. Appl. Phys. Lett. 105, 093103 (2014).
[26] D.L. Ye, C.H. Sun, Y. Chen, K. Ozawa, D. Hulicova-Jurvakova, J. Zou, L.Z. Wang. Ni-induced stepwise capacity increase in Ni-less Li-rich cathode materials for high performance lithium ion batteries. Accepted by Nano Research.
[27] Y. Jia, C. H. Sun, S.H. Shen, J. Zou, S.S. Mao, X.D. Yao. Combination of nanosizing and interfacial effect: Future perspective for designing Mg-based nanomaterials for hydrogenn storage. Accepted by Renewable & Sustainable Energy Reviews.
[28] 93 T. Liao, Z.Q. Sun, C.H. Sun, D.J. Searles. Electronic Coupling and Catalytic Effect on H2 Evolution of MoS2/Graphene Nanocatalyst. Scientific Report.,
[29] C.Z. Wu, H. Wang, X.X. Zhang, Y.W. Zhang, W.Z. Ding, C.H. Sun. Microstructure Evolution and Oxidation States of Co in Perovskite-type Oxide Ba1.0Co0.7Fe0.2Nb0.1O3-δ Annealed in CO2 Atmosphere. J. Energy Chem. 23, 575-581 (2014).
[30] T. Butburee, Y. Bai, J. Pan, X. Zong, C.H. Sun., G. Liu and L.Z. Wang. Step-wise Controlled Growth of Metal@TiO2 Core-shells with Plasmonic Hot Spots and Their Photocatalytic Properties. J. Mater. Chem. A 2, 12776-12784 (2014).
[31] C.H. Sun*, D. J. Searles. Eelectronics, Vacancies, Optical Properties, and Band Engineering of Red Photocatalyst SrNbO3: A Computational Investigation. J. Phys. Chem. C 118, 11267-11270 (2014).
[32] J. X. Qiu, S. Li, E. Gray, H.W. Liu, Q.F. Gu, C.H. Sun, C. lai, H.J. Zhao, S.Q. Zhang. Hydrogenation synthesis of blue TiO2 for high-performance lithium-ion batteries. J. Phys. Chem. C 118, 8824-8830 (2014).
[33] Y. Yang, C.H. Sun, G. Liu, L.Z. Wang, X.L. Ma, H.-M. Cheng. Constructing a Metallic/Semiconducting TaB2/Ta2O5 Core/Shell Heterostructure for Photocatalytic Hydrogen Evolution. Adv. Energy Mater. 4, 1400057 (2014).
[34] C. Fletcher, Y.J. Jiang, C.H. Sun, R. Amal. Morphological and Electronic Alteration of ZnO nanomaterials Induced by Metal Doping. Nanoscale 6, 7312-7318 (2014).
[35] S. Ahmadi, B. Agnarsson, I. Bidermane, B. Wojek, Q. Noël, C.H. Sun, M. Göthelid. Site-dependent charge transfer at the Pt(111)-ZnPc interface and the effect of iodine. J. Chem. Phys. 140, 174702 (2014).
[36] Delai Ye, K. Ozawa, C.H. Sun*, B. Wang, D. H-Jurcakova, J. Zou, G. Q. Lu, L. Z. Wang. Capacity-Controllable Li-rich Cathode Materials for Lithium-Ion Batteries. Nano Energe 6, 92-102 (2014).
[37] J.X. Qiu, C. Lai, E. Gray, S. Li, S.Y. Qiu, E. Strounina, C.H. Sun, H. J. Zhao, S.Q. Zhang. Blue hydrogenated lithium titanate for high-rate anode material for lithium-ion batteries. J. Mater. Chem. A. 2, 6353 (2014).
[38] Y. Jiang, Y. Wang, Y.Y. Zhang, Z.F. Zhang, W.T. Yuan, C.H. Sun, X. Wei, C.-K. Tsung, X.F. Zhang, S.X. Mao, S.B. Zhang, Z. Zhang. Electron excitation enhanced van der Waals interaction leads to Pt nanoparticle coalescene. Nano Research 7, 308-314 (2014).
[39] H. Jin, L. Z. Wang, D. Searles, C.H. Sun*. Comparison of the Effect of Hydrogen Incorporation and Oxygen Vacancies on the Properties of Anatase TiO2: Electronics, Optical Absorption and Interaction with water. Chinese Science Bulletin. 59, 2175-2180 (2014). (Invited)
[40] G. Han, Z-G. Chen, C. H. Sun*, L. Yang, L. Cheng, Z. Li, W. Lu, Z. Gibbs, G. J. Snyder, K. Jack, J. Drennan, J. Zou. A New Crystal: Layer-Structured Rhombohedral In3Se4. CrystEngComm. 16, 393 (2014).
[41] C. H. Sun*, D. Searles. Origin of the Visible Light Absorption of Boron/Nitrogen-Co-doped Anatase TiO2. J. Phys. Chem. C. 117, 26454 (2013).
[42] T Liao, C.H. Sun, A.J. Du, Z.Q. Sun, S.C. Smith. Chemically Modified Ribbon Edge Stimulated H2 Dissociation: A First-Principles Computational Study. Phys. Chem. Chem. Phys., 15, 8054 (2013).
[43] X. Zong, C.H. Sun, H. Yu, Z.G. Chen, Z. Xing, D.L. Ye, G.Q. Lu, L. Z. Wang. Activate water oxidation on N-doped ZnO photocatalyst under visible light. J. Phys. Chem. C. 117, 4937 (2013).
[44] Y. Jia§, C.H. Sun§, M.A. Wahab, L. Cheng, J. Cui, J. Zou, M. Zhu, X. D. Yao. Destabilization of Mg-H bonding through nano-interfacial confinement by unsaturated carbon for hydrogen desorption from MgH2. Phys. Chem. Chem. Phys. 15, 5814 (2013). (§ Equal contribution).
[45] L. Wu, H.B. Jiang, C.H. Sun*, H.G. Yang. In Situ Si-doped TiO2 Single Crystals with Exposed High-index {201} Facets and Enhanced Visible-light Photocatalytic Activity. Chem. Comm. 49, 2016 (2013).
[46] Da-Wei Wang, C.H. Sun, F. Li, H.M. Cheng, G.Q. Lu, I. Gentle. O/Li-graphene. J. Mater. Chem. A 1, 3607 (2013).
[47] K.-H. Lin, C.H. Sun, S.P. Ju, S.C. Smith. Density functional theory study on adsorption of Pt nanoparticle on graphene. Int. J. Hydrogen Energy, 38, 6283 (2013).
[48] C.H. Sun. Computational prediction of hydrogen sulphide and methane separation at room temperature by anatase titanium dioxide. Chem. Phys. Lett. 556, 106 (2013).