Rational design and controllable synthesis of functional materials

2000 – 2004:    PhD., Materials Science, Tsinghua University, Beijing,China

1997 – 2000:     M.S., Chemistry, Jilin University, Changchun,China

1993 – 1997:     B.S., Chemistry, Jilin University, Changchun,China

2011.01 – present: Professor of Institute of Process Engineering, CAS, China

2007.04 – 2011.01: Humboldt/postdoctoral fellow in MPI of Colloids and Interfaces, Germany

2004.01 – 2007.03: Postdoctoral researcher in Nagoya Institute of Technology, Japan

2007      Alexander von Humboldt Fellowship,Germany

   

Dr. Han was authored 100 peer-reviewed articles

 

ARTICLES IN JOURNALS (* corresponding author)

     [1]        Ting Liu^#, Xiangyu Dou^#, Yonghui Xu, Yongjun Chen, Yongsheng Han^*, In situ investigation of dynamic silver crystallization driven by chemical reaction and diffusion, Research 2020, 2020：4370817 .

     [2]        Xiangyu Dou, Yongxiu Chen^*, Yongsheng Han^*, Modification of glycerol force field for simulating silver nucleation under a diffusion limited condition, Colloids and Surfaces A: Physicochemical and Engineering Aspects 2020, 592: 124574.

     [3]        Yongsheng Han^*, Tao Yang, Yongxiu Chen, A perspective on morphology controlled synthesis of powder by tuning chemical diffusion and reaction, Advanced Powder Technology 2020, 31, 922-925 (invited).

     [4]        Jianmei Liu, Qiang Lin, Yu Zhou, Jinhui Dai^*, Yongsheng Han^*, Shape controllable synthesis of silver particles by selecting the crystallization routes, KONA Powder and Particle Journal 2020, 37,166–175 (invited).

     [5]        Qinqin Wu, Yongjun Chen, Xianglei Dong, Hui Xing, Yongsheng Han*,Role of surface energy in the formation of ice morphology, The Chinese Journal of Process Engineering 2020 (in press).

     [6]        Yonghui Xu, Daoliang Chen, Dongke Sun, Jinbing Li, Yongsheng Han*, Role of micro-concentration field on the evolution of silver morphology, CIESC Journal 2020 (in press).

     [7]        Hui Xing, Xianglei Dong, Dongke Sun, Yongsheng Han, Anisotropic lattice Boltzmann-phase-field modeling of crystal growth with melt convection induced by solid-liquid density change, Journal of Materials Science & Technology 2020, 57, 26-32.

     [8]        Xianglei Dong, Yanli Lu, Hongliang Zhao, Yongsheng Han, Phase-field modeling of complex dendritic structures in constrained growth of hexagonal close-packed crystals, The European Physical Journal E 2020, 43, 28.

     [9]        Xuezhou Wang, Dongke Sun, Hui Xing, Yongsheng Han, Yanfei Liu, Jincheng Wang, Numerical modeling of equiaxed crystal growth in solidification of binary alloys using a lattice Boltzmann-finite volume scheme, Computational Materials Science 2020, 184, 109855.

   [10]       Yongxiu Chen, Xiangyu Dou, Kai Wang, Yongsheng Han^*, Lithium dendrites inhibition via diffusion enhancement, Advanced Energy Materials 2019, 9, 1900019.

   [11]       Tongtong Liu, Kai Wang, Yongxiu Chen, Shuangliang Zhao, Yongsheng Han^*, Dominant role of wettability in improving the specific capacitance, Green Energy & Environment 2019, 4, 171-179.

   [12]       Wei Liu^#, Kai Wang^#, Yu Zhou, Xiaoping Guan, Ping Che and Yongsheng Han^*, Rational synthesis of silver nanowires at an electrode interface by diffusion limitation, CrystEngComm 2019, 21, 1466-1473.

   [13]       Dongke Sun^*, Hui Xing, Xianglei Dong, Yongsheng Han^*, An anisotropic lattice Boltzmann – Phase field scheme for numerical simulations of dendritic growth with melt convection, International Journal of Heat and Mass Transfer 2019, 133, 1240-1250.

   [14]       Leying Qing, Yu Li, Weiqiang Tang, Duo Zhang, Yongsheng Han, Shuangliang Zhao^*, Dynamic adsorption of ions into like-charged nanospace: a dynamic density functional theory study, Langmuir 2019, 35, 4254−4262.

   [15]       Hao Jiang, Yongsheng Han, Qiang Zhang, Jiexin Wang, Yiqun Fan and Chunzhong Li^*, Research progress in materials-oriented chemical engineering in China, Reviews in Chemical Engineering 2019, 35(8), 917–927.

   [16]       Kai Wang, Han Wang, Yu Zhou, Xiangyu Dou, Yongsheng Han*, Synthesis and applications of silver nanoparticles with controlled morphologies, The Chinese Journal of Process Engineering 2019, 19(5), 919-931. (in Chinese)

   [17]       Tongtong Liu, Kai Wang, Yongxiu Chen, Yongsheng Han, Effect of organic additives on the electrochemical performance of aqueous electrolyte in supercapacitors, The Chinese Journal of Process Engineering 2019, 19(6), 1242-1249. (in Chinese)

   [18]       Tao Yang, Doris Segets, Thaseem Thajudeen, Yongsheng Han^*, Wolfgang Peukert^*, The effect of mixing on silver particle morphology in flow synthesis, Chemical Engineering Science 2018, 192, 254-263.

   [19]       Ting Liu^#, Wei Liu^#, Yongjun Chen, Tao Yang^*, Yongsheng Han^*, Silver morphology indicating the evolution of concentration heterogeneity, Chemical Engineering & Processing: Process Intensification 2018, 134, 38-44.

   [20]       Qiang Lin^#, Xue Wang^#, Jinbing Li, Yongsheng Han^*, Oriented aggregation of silver particles in gel solutions, Colloids and Surfaces A : Physicochemical and Engineering Aspects 2018, 555, 161-169.

   [21]       Xue Wang, Chaofeng Hou, Chengxiang Li,^* and Yongsheng Han^*, Shape-dependent aggregation of silver particles by molecular dynamics simulation, Crystals 2018, 8, 405.

   [22]       Junpeng Wang, Junkuo Wang, Qiong Zhou, Zhan Li, Yongsheng Han, Yan Song, Shuo Yang, Xiaoke Song, Tao Qi^*, Helmuth Moehwald, Dmitry Shchukin, Guoliang Li^*, Adaptive polymeric coatings with self-reporting and self-healing dual functions from porous core-shell nanostructures, Macromolecular Materials and Engineering 2018, 303, 1700616.

   [23]       Han Wang^#, Qiang Lin^#, Xiangyu Dou, Tao Yang and Yongsheng Han^*, A different view of solvent effects in crystallization, Crystals 2017, 7, 357.

   [24]       Tao Yang^#, Jianmei Liu^#, Jinhui Dai, Yongsheng Han^*, Shaping particles by chemical diffusion and reaction, CrystEngComm 2017, 19, 72-79.

   [25]       Jun-Peng Wang, Yan Song, Jun-Kuo Wang, Qiong Zhou, Zhan Li, Yongsheng Han, Shuo Yang, Guo Liang Li^*, Tao Qi^*, PH-responsive polymer coatings for reporting early stages of metal corrosion, Macromolecular Materials and Engineering 2017, 302, 1700128.

   [26]       Ping Che^*, Beibei Wang, Changyan Sun, Yongsheng Han, Wenjun Li, Influence of multi-walled carbon nanotubes on the thermoelectric properties of La-filled CoSb₃ skutterudite composites, Journal of Alloys and Compounds 2017, 695, 1908-1912.

   [27]       Wei Liu, Tao Yang, Jianmei Liu, Ping Che, Yongsheng Han^*, Controllable synthesis of silver dendrites via an interplay of chemical diffusion and reaction, Industrial & Engineering Chemistry Research 2016, 55(30), 8319-8326.

   [28]       Tao Yang, Yongsheng Han^*, Quantitatively relating diffusion and reaction for shaping particles, Crystal Growth & Design 2016, 16, 2850−2859.

   [29]       Juqing Ma, Wenlong Zhang, Zhan Li, Qiang Lin, Ji Xu,^* and Yongsheng Han^*, Competition of major forces dominating the structures of porphyrin assembly, Crystal Growth & Design 2016, 16, 1942−1947.

   [30]       Ping Che, Wei Liu, Xiaoxue Chang, Anhe Wang, Yongsheng Han^*, Multifunctional silver film with superhydrophobic and antibacterial properties, Nano Research 2016, 9(2), 442-450.

   [31]       Juqing Ma^#, Zhan Li^#, Qiang Lin, Wenlong Zhang, Yongsheng Han^*, Diffusion controlling porphyrin assembled structures, Chemical Engineering Journal 2016, 283, 1051–1058.

   [32]       Yongsheng Han^*, Summary of Track 2: particle design-formulation and processing, Procedia Engineering 2015, 102, 336-337.

   [33]       Han Wang, Yongsheng Han^*, Shaping particles via controlling the diffusion of building blocks, Industrial & Engineering Chemistry Research 2015, 54(40), 9742-9749.

   [34]       Jianmei Liu; Tao Yang; Chengxiang Li; Jinhui Dai, Yongsheng Han^*, Reversibly switching silver hierarchical structures via reaction kinetics, Scientific Reports 2015, 5, 14942.

   [35]       Tao Yang, Yongsheng Han^*, Jinghai Li, Manipulating silver dendritic structures via diffusion and reaction, Chemical Engineering Science 2015, 138, 457-464.

   [36]       Wei Liu, Tao Yang, Chengxiang Li, Ping Che, Yongsheng Han^*, Regulating silver morphology via electrochemical reaction, CrystEngComm 2015, 17, 6014-6022.

   [37]       Yang Yang^#, Han Wang^#, Zhen Ji, Yongsheng Han^* and Jinghai Li, A switch from classic crystallization to non-classic crystallization by controlling the diffusion of chemicals, CrystEngComm 2014, 16, 7633-7637.

   [38]       Han Wang, Yongsheng Han^*, A compromise between competing forces dominating the diversity of aragonite structures, CrystEngComm 2014, 16, 1971-1977.

   [39]       Yongsheng Han^*, Dmitry Shchukin, Julia Schneider, Helmuth Möhwald, Fluorescence indicative pH drop in sonication, Colloids and Surfaces A: Physicochemical and Engineering Aspects 2014, 445, 30-33.

   [40]       Xu Yang, Yaning Liu, Jian Yu, Fuming Jiang, Yongsheng Han, Guangwen Xu, Wei Ge， Numerical simulation of mixing characteristics of trace sample and bed material in micro fluidized bed reaction analyzer, CIESC Journal 2014, 9, 3323-3330（in Chinese）.

   [41]       Han Wang, Yongsheng Han^*, Jinghai Li, Dominant role of compromise between diffusion and reaction in the formation of snow-shaped vaterite, Crystal Growth & Design 2013, 13, 1820-1825.

   [42]       Xuejun Cui^*, Zhanfeng Li, Shuangling Zhong, Bingnan Wang, Yongsheng Han, Hongyan Wang, Helmuth Möhwald, A facile sonochemical route for the fabrication of magnetic protein microcapsules for targeted delivery, Chemistry-A European Journal 2013, 19, 9485-9488.

   [43]       Xuejun Cui^*, Bingnan Wang, Shuangling Zhong, Zhanfeng Li, Yongsheng Han, Hongyan Wang, Helmoth Möhwald, Preparation of protein microcapsules with narrow size distribution by sonochemical method, Colloid and Polymer Science 2013, 291, 2271–2278.

   [44]       Han Wang, Wenlai Huang, Yongsheng Han^*, Diffusion-reaction compromise the polymorphs of precipitated calcium carbonate, Particuology 2013, 11, 301-308.

   [45]       Qiang Lin, Chengpeng Qin, Yang Shen, Yongsheng Han*, Jinbing Li, Latest progress in the promoters of silver catalysts for ethylene expoxidation reaction, Industrial Catalysis 2013, 21（2） 1-7. (In Chinese)

   [46]       Masayoshi Fuji^*, Yongsheng Han, Chika Takai, Synthesis and applications of hollow particles, KONA Powder and Particle Journal 2013, 30, 47-68.

   [47]       Peng Zhang, Congcong Wu, Yongsheng Han, Tetsuro Jin, Bo Chi^*, Jian Pu, and Li Jian，Low-temperature preparation of hierarchical structure TiO₂ for flexible dye-sensitized solar cell, Journal of the American Ceramics Society 2012, 95(4), 1372-1377.

   [48]       Wei Ge, Wei Wang, Ning Yang, Jinghai Li^*, Mooson Kwauk, Feiguo Chen, Jianhua Chen, Xiaojian Fang,Li Guo, Xianfeng He, Xinhua Liu, Yaning Liu, Bona Lu, Jian Wang, Junwu Wang, Limin Wang,Xiaowei Wang, Qingang Xiong, Ming Xu, Lijuan Deng, Yongsheng Han, Chaofeng Hou, Leina Hua, Wenlai Huang, Bo Li, Chengxiang Li, Fei Li, Ying Ren, Ji Xu, Nan Zhang, Yun Zhang, Guofeng Zhou,Guangzheng Zhou, Meso-scale oriented simulation towards virtual process engineering (VPE)—The EMMS Paradigm, Chemical Engineering Science 2011, 66 4426-4458.

   [49]       Yongsheng Han^*, Dmitry Shchukin, Paulo Fernandes, Radu-Cristian Mutihac, Helmuth Möhwald, Mechanism and kinetics of controlled drug release by temperature stimuli responsive protein nanocontainers, Soft Matter 2010, 6, 4942–4947.

   [50]       Yongsheng Han^*, Dmitry Shchukin, Juan Yang, Christian Rone Simon, Hendrik Fuchs, Helmoth Möhwald, Biocompatible protein nanocontainers for controlled drugs release, ACS Nano 2010, 4, 2838-2844.

   [51]       Yongsheng Han^*, Dmitry Shchukin, Helmuth Möhwald, Drug release of sonochemical protein containers, Chemistry Letters 2010, 39, 502-503.

   [52]       Yongsheng Han^*, Masayoshi Fuji^*, Dmitry Shchukin, Helmoth Möhwald, and Minoru Takahashi, A new model for the synthesis of hollow particles via the bubble templating method, Crystal Growth & Design 2009, 9, 3771–3775.

   [53]       Yongsheng Han^*, Darya Radziuk, Dmitry Shchukin, Helmoth Möhwald, Sonochemical synthesis of magnetic protein container for targeted delivery, Macromolecular Rapid Communications 2008, 29, 1203–1207.

   [54]       Yongsheng Han^*, Darya Radziuk, Dmitry Shchukin, Helmoth Möhwald, Stability and size dependence of protein microspheres prepared by ultrasonication, Journal of Materials Chemistry 2008, 18, 5162–5166.

   [55]       Liwei Lin, Yongsheng Han, Masayoshi Fuji^*, Takeshi Endo, Xiaowei Wang, Minoru Takahashi, Synthesis of hexagonal ZnO microtubes by a simple soft aqueous solution method, Journal of the Ceramic Society of Japan 2008, 116, 198-200.

   [56]       Zhonghe Wen, Yongsheng Han^*, Long Liang, Jianbao Li, Preparation of porous ceramics with controllable pore sizes in an easy and low-cost way, Materials Characterization 2008, 59, 1335-1338.

   [57]       Xiaowei Wang, Yongsheng Han, Liwei Lin, Masayoshi Fuji^*, Takeshi Endo, Hideo Watanabe and Minoru Takahashi, A molecular dynamics study on aqueous solutions for preparation of hollow CaCO₃ particles, Modelling and Simulation in Materials Science and Engineering 2008, 16, 035006 (9pp).

   [58]       Yongsheng Han, Liwei Lin, Masayoshi Fuji, and Minoru Takahashi^*, A novel one-step solution approach to synthesize tubular ZnO nanostructures, Chemistry Letters 2007, 36(8), 1002 -1003.

   [59]       Yongsheng Han, Liwei Lin, Masayoshi Fuji, Takeshi Eedo, Hideo Watanabe, Minoru Takahashi, Effect of surfactants on the formation of hollow CaCO₃ particles by bubble template method, Ceramic Transactions 2007, 198, 263-268.

   [60]       Liwei Lin, Yongsheng Han, Masayoshi Fuji, Takeshi Endo, Hideo Watanabe, Minoru Takahashi, A facile method to synthesize ZnO tubes by involving ammonia bubbles, Ceramic Transactions 2007,198,269-274

   [61]       Yongsheng Han, Gunawan Hadiko, Masayoshi Fuji, Minoru Takahashi^*, Crystallization and transformation of vaterite at controlled pH, Journal of Crystal Growth 2006, 289, 269-274.

   [62]       Yongsheng Han, Gunawan Hadiko, Masayoshi Fuji, Minoru Takahashi, Factors affecting the phase and morphology of CaCO₃ prepared by a bubbling method, Journal of the European Ceramics Society 2006, 26, 843-847.

   [63]       Yongsheng Han, Y. Tarutani, Masayoshi Fuji and Minoru Takahashi, Synthesis of hollow silica particle by combination of bubble templating method and sol-gel transformation, Advanced Materials Research 2006, 11-12, 673-676.

   [64]       Yongsheng Han^*, Gunawan Hadiko, Masayoshi Fuji, Minoru Takahashi, Influence of initial CaCl₂ concentration on the phase and morphology of CaCO₃ prepared by carbonation, Journal of Materials Science 2006, 41, 4663-4667.

   [65]       Yongsheng Han^*, Jianbao Li, Xiaoshan Ning, Bo Chi, Preparation of nickel aluminate spinel by solid state reaction, Journal of Advanced Materials 2006, S1, 23-25.

   [66]       Gunawan Hadiko, Yongsheng Han, Masayoshi Fuji, Minoru Takahashi, Influence of inorganic ion on the synthesis of hollow calcium carbonate, Advanced Materials Research 2006, 11-12, 677-680.

   [67]       Gunawan Hadiko, Yongsheng Han, Masayoshi Fuji, Minoru Takahashi, Effect of magnesium ion on the precipitation of hollow calcium carbonate by bubble templating method, Key Engineering Materials 2006, 317-318, 65-68.

   [68]       Yongsheng Han, Gunawan Hadiko, Masayoshi Fuji, Minoru Takahashi^*, Effect of flow rate and CO₂ content on the phase and morphology of CaCO₃ prepared by bubbling method, Journal of Crystal Growth 2005, 276, 541-548 .

   [69]       Yongsheng Han, Gunawan Hadiko, Masayoshi Fuji, Minoru Takahashi^*, A novel approach to synthesize hollow calcium carbonate particles, Chemistry Letters 2005, 34, 152-153.

   [70]       Yongsheng Han^*, Jianbao Li, Xiaoshan Ning, Bo Chi, Temperature dependence of the cation distribution in nickel aluminate spinel from thermodynamics and X-rays, Journal of the American Ceramics Society 2005, 88, 3455-3457.

   [71]       Gunawan Hadiko, Yongsheng Han, Masayoshi Fuji, Minoru Takahashi^*, Synthesis of hollow calcium carbonate particles by the bubble templating method, Materials Letters 2005, 59, 2519-2522.

   [72]       Minoru Takahashi, Masayoshi Fuji, Yongsheng Han, Synthesis of hollow particles and their application, Journal of the Society of the Inorganic Materials, Japan 2005, 12, 87-96. (In Japanese)

   [73]       Tao Sun,  Xiaoshan Ning, Yongsheng Han, Heping Zhou, Study on spark plasma sintering of NiAl₂O₄-metal inert anodes, Key Engineering Materials 2005, 280-283, 771-774.

   [74]       Tao Sun, Xiaoshang Ning, Kexin Chen, Yongsheng Han, Heping Zhou, Self-propagating high-temperature synthesis of nickel aluminate spinel, Journal of the Ceramic Society of Japan 2004, 112, S84-S87.

   [75]       Yongsheng Han, Jianbao Li, Xiaoshan Ning, Bo Chi, Effect of preparation temperature on the lattice parameter of nickel alumiante spinel, Journal of the American Ceramics Society 2004, 87(7), 1347-1349.

   [76]       Yongsheng Han^*, Jianbao Li, Xiaoshan Ning, Xiao Zhan Yang, Bo Chi, Study on NiO excess in preparing NiAl₂O₄, Materials Science and Engineering A-Structural Materials Properties Microstructure and Processing 2004, 369, 241-244.

   [77]       Bo Chi^*, Jianbao Li, Yongsheng Han, Yongjun Chen, Effect of temperature on the preparation and electrocatalytic properties of a spinel NiCo₂O₄/Ni electrode, International Journal of Hydrogen Energy 2004, 29, 605-610.

   [78]       Bo Chi^*, Jianbao Li, Yongsheng Han, Jinhui Dai, Effect of precipitant on preparation of Ni-Co spinel oxide by coprecipitation method, Materials Letters 2004, 58, 1415-1418.

   [79]       Yongsheng Han^*, Jianbao Li, Bo Chi, Zhonghe Wen, The effect of sintering temperature on porous silica composite strength, Journal of Porous Materials 2003, 10, 41-45.

   [80]       Yongsheng Han^*, Jianbao Li, Yongjun Chen, Fabrication of bimodal porous alumina ceramics, Material Research Bulletin 2003, 38, 373-379.

   [81]       Yongsheng Han^*, Jianbao Li, Qiangmin Wei, Zhonghe Wen, The effect of SiO₂ addition on porous silica composite strength, Material Letters 2003, 57, 3847-3850.

   [82]       Yongsheng Han*, Jianbao Li, Xiaoshan Ning, Tao Sun, Preparation and conductivity of nickel ferrite spinel,  Rare Metal Materials and Engineering  2003, 32(S1), 705-707. (in Chinese).

   [83]       Yongjun Chen^*, Jianbao Li, Yongsheng Han, Xiaozhan Yang and Jinhui Dai, Growth and characterization of dumbbell-shaped MgO nanowhiskers, Ceramics International 2003, 29, 663-666.

   [84]       Yongjun Chen^*, Jianbao Li, Yongsheng Han, Xiaozhan Yang, Jinhui Dai, Fabrication of decorated MgO crystalline fibers, Materials Research Bulletin 2003, 38, 445-452.

   [85]       Bo Chi, Jianbao Li, Yongsheng Han, Synthesis study of nickel cobaltite spinel, Rare Metal Materials and Engineering 2003, 32 (S1), 694-697. (in Chinese).

   [86]       Zhonghe Wen, Jianbao Li, Yongsheng Han, Xiaozhan Yang, The effect of SiO₂ addition on phase and microstructure of porous silica ceramic, Materials for Mechanical Engineering 2003, 27(11), 36-38. (in Chinese)

   [87]       Zhonghe Wen, Jianbao Li, Yongsheng Han, Effect of sintering temperature on mechanical properties of porous silica ceramic, Materials for Mechanical Engineering 2003, 27(12), 17-19. (in Chinese)

   [88]       Sun Tao, Ning Xiaoshan, Chen Kexin, Han Yongsheng, Zhou Heping, Liquid-phase combustion synthesis of nickel aluminate spinel powder, Rare Metal Materials and Engineering 2003, 32（S1）, 780-783 (in Chinese).

   [89]       Yongsheng Han^*, Jianbao Li, Yongjun Chen, Qiangmin Wei, A study on the factors involved in collapse of macroporous α-Al₂O₃ structure, Journal of Materials Processing Technology 2002, 128(1-3), 313-317.

   [90]       Yongsheng Han^*, Jianbao Li, Qiangmin Wei, Ke Tang, The effect of sintering temperatures on alumina foam strength, Ceramics International 2002, 28, 755-759.

   [91]       Yongsheng Han*, Jianbao Li, Qiangmin Wei, Progress in the applications and fabrications of porous ceramics, Materials Review 2002, 16, 26-29. (in Chinese)

   [92]       Yongsheng Han, Jianbao Li, Xiaoshan Ning, Xiaoqing Hu, The effects of sintering temperature and reactive material ratios on the productivity of nickel aluminate spinel, Rare Metal Materials and Engineering 2002, 31(S1), 214-216. (in Chinese).

   [93]       Yongjun Chen^*, Jianbao Li, Yongsheng Han, Qiangmin Wei, Jinhui Dai, A novel morphology of SiO_x nanowires with a modified diameter, Applied Physics A-Materials Science & Processing 2002, 74, 433-435.

   [94]       Yongjun Chen^*, Jianbao Li, Yongsheng Han, Xiaozhan Yang, Jinhui Dai, The effect of Mg vapor source on the formation of MgO whiskers and sheets, Journal of Crystal Growth 2002, 245, 163-170.

   [95]       Yongjun Chen^*, Jianbao Li, Yongsheng Han, Jinhui Dai, Self-assembly of Si and SiO_x nanostructures, Journal of Materials Science Letters 2002, 21, 175-177.

   [96]       Qiangmin Wei^*, Jianbao Li, Yongjun Chen, Yongsheng Han, Cation distribution in NiMn_1-xFe_2-xO₄ ferrites, Materials Chemistry & physics 2002, 74, 340-343.

   [97]       Tao Sun, Xiaoshan Ning , Kexin Chen , Heping Zhou , Yongsheng Han, Combustion synthesis of NiAl2O4 spinel powder, Rare Metal Materials and Engineering 2002, 31(S1), 55-58 (in Chinese).

   [98]       Qiangmin Wei^*, Jianbao Li, Yongjun Chen, Yongsheng Han, X-ray study of cation distribution in NiMn_1-xFe_2-xO₄ ferrites, Materials Characterization 2001, 47, 247-252.

   [99]       Yongsheng Han, Haifeng Zou, Hongyan Wang, Study on the sorption mechanism and function of VS-2 anion exchanging fiber, Journal of Changchun University of Science and Technology 1998, 28, 130-133. (in Chinese).

  [100]     Jinming Xu, Bing Yang, Yongsheng Han, Hongyan Wang, Genetic algorithms in analytical chemistry, Journal of Changchun University of Science and Technology 1999, 29, 121-124. (in Chinese).

     [1]        Yongsheng Han, Yongxiu Chen, “A Dendrite Free Rechargeable Battery at Quick Charging” , Chinese Patent 2017216993314(in Chinese)

      [2]        Yongsheng Han, Zhan Li, Han Wang, Jinghai Li, “Morphology control on calcium carbonates via temperature”, Chinese Patent CN104692437B (in Chinese)

      [3]        Yongsheng Han, Zhan Li, “Preparation and application of a biocompatible gel sphere”, Chinese Patent CN104707147B (in Chinese)

      [4]        Minoru Takahashi, Masayoshi Fuji, Yongsheng Han, Tatsuya Tomioka, “A method of manufacturing ZnO-based nanotubes”, Japanese Patent 2006-118825. (in Japanese)

      [5]        Minoru Takahashi, Masayoshi Fuji, Tatsuya Tomioka, Yongsheng Han, Takeshi Endo, Hideo Watanabe “Synthesis of hollow calcium carbonate particles in a non-equilibrium processing”，Japanese Patent 2006-301117. (in Japanese)

To discover the secrets in the black box of material preparation and application

In the last five years, Dr. Han has given 20 invited talks in the international conferences.

Dr. Han has good collaborations with Germany (Potsdam University, Friedrich-Alexander-University, Erlangen-Nuremberg) , Japan (Nagoya Institute of Technology) and UK (University of Liverpool)

已指导学生

王雪  博士研究生  080502-材料学  

窦翔宇  博士研究生  081701-化学工程  

林强  博士研究生  081701-化学工程  

汪涵  博士研究生  081701-化学工程  

杨涛  博士研究生  081701-化学工程  

刘桐桐  硕士研究生  081701-化学工程  

陈永修  博士研究生  081701-化学工程  

王凯  博士研究生  081701-化学工程  

胥永辉  硕士研究生  085216-化学工程  

王瑞  硕士研究生  085216-化学工程  

徐润飞  硕士研究生  085216-化学工程  

现指导学生

黄浩洋  博士研究生  080502-材料学  

陈云逸  博士研究生  080502-材料学  

刘海建  博士研究生  080502-材料学  

时浩博  博士研究生  081701-化学工程