教育经历

• 2003.9-2006.6 中国科学院研究生院（现中国科学院大学）  无机化学  博士学位

• 2000.9-2003.6 吉林大学 化学学院 分析化学系                    分析化学  硕士学位

• 1996.9-2000.6 吉林大学 化学系 国家教育基地班                 分析化学  学士学位

工作经历

• 2019.12-至今            南方科技大学 前沿与交叉科学研究院 研究教授 助理院长

                                   中子科学中心 主任

                                   深圳市固态电池研发重点实验室 主任

                                   粤港澳光热电能源材料与器件联合实验室 副主任

                                   深圳国家应用数学中心 研究员

• 2014.12-2019.12      中国原子能科学研究院 中子散射实验室常务副主任 研究员/博导

• 2009.12-2013.12      中国原子能科学研究院 中子散射实验室主任助理 副研究员/硕导

• 2008.10-2009.09      美国Los Alamos国家实验室 Lujan中子科学中心 博后

• 2007.10-2007.12      德国HMI所中子科学中心 国际原子能机构 IAEA Fellowship

• 2006.08-2008.12      中国原子能科学研究院 中子散射实验室 助理研究员

担任职务

      担任南方科技大学前沿与交叉科学研究院 助理院长 中子科学中心主任，电化学储能实验室主任，深圳市材料基因组大科学装置-中子科学平台负责人，深圳市固态电池研发重点实验室主任，粤港澳光热电能源材料与器件联合实验室副主任，深圳国家应用数学中心研究员，深圳市技术攻关重大项目负责人，广东省“珠江人才计划”引进创新创业团队核心成员，深圳市天然气水合物重点实验室学术委员会委员。曾任中国原子能科学研究院中子散射实验室常务副主任，中子照相组组长，中国先进研究堆冷/热中子照相装置建设项目负责人、国家基金委重大仪器中子工程谱仪研制项目技术负责人，院学术带头人培养对象。中国核学会电离辐射计量分会理事，中国核学会核测试与分析分会理事，全国无损检测标准化技术委员会技术专家，深圳市新能源汽车促进会专家委员会专家，深圳市光明区科协第一届代表大会代表，深圳市光明区首批中小学科学校长。

学术成果

       具有20年大科学装置建设、运行和应用经验，国内中子散射领域知名专家，作为负责人基于中国先进研究堆和中国散裂源主持建造4台中子谱仪，包括：中国先进研究堆-工程应力谱仪、热中子成像装置、冷中子成像装置，以及中国散裂中子源-高压中子谱仪，参与建设4台中子谱仪。担任国家科技部973/重点研发专项课题负责人、基金委面上/重大仪器课题负责人、广创团队项目核心成员、深圳市技术攻关重大项目负责人，深圳市材料基因组-高压中子谱仪负责人，承担科研项目经费总计超3亿元。

       开发了快速中子成像、高分辨中子成像、极化中子成像、间接中子CT等先进技术；成功研制我国首台核燃料元件中子 CT 测试平台、X射线-中子双束CT装置和快速中子照相探测系统，首次在国内开展两相流、燃料电池、古生物化石等样品的中子照相研究；建立核燃料元件、航空涡轮发动机叶片等国家重大领域关键部件的中子照相无损检测方法，完成国内首次商业乏燃料元件中子成像无损检测，开展国产航空发动机涡轮叶片残心检测；研制达到国际一流水平的工程应力中子谱仪（国家自然基金委重大仪器），已成功开展高铁车轮和发动机涡轮叶片的三维深度残余应力无损检测。

       担任前沿与交叉科学研究院-中子科学中心主任，主持深圳市材料基因组-高压中子衍射谱仪建设，该谱仪综合技术指标世界一流，可极大拓展物质科学的认知与研究空间，为发现新物质、探索新现象、开辟新领域，创造前所未有的机遇。该平台将开展在压力、温度、磁场等综合极端样品环境下的材料、物理、化学、生物、医药、深地/深海科学等前沿交叉学科研究，重点开发与能源和环境相关的新材料、新工艺、新技术、新应用，满足粤港澳大湾区创新发展的重大需求，促进大湾区国家综合科学中心建设进程。两次担任国家科技部重点研发计划“大科学装置前沿研究”重点专项“课题负责人：高性能中子超镜导管关键技术研发及应用项目-高性能中子超镜元件制作技术课题；中子散射原位实验技术研究和样品环境建设项目-放射性样品中子CT实验环境课题。

       兼聘深圳国家应用数学中心研究教授，主持深圳市技术攻关重大项目“重2022D010光子计数能谱CT探测器研发"，经费2500万。该项目由南方科技大学深圳国家数学中心CT成像工程实验室牵头，联合深圳市帧观德芯科技有限公司和深圳市人民医院等单位申报。这是深圳“科创委”首次设立“技术攻关重大项目”，也是我校首次获批此类项目。该项目团队由高校教授、行业领军企业技术专家、医院资深专家组成，开展“产、学、研、用”深度合作，共同攻关研发号称第四代医学CT的“光子计数能谱CT”，落实《深圳市培育发展高端医疗器械产业集群行动计划（2022-2025年）》，提升高端医疗影像产业自主创新能力。

       担任深圳市固态电池研发重点实验室主任、粤港澳光热电能源材料与器件联合实验室副主任，发展推广原位/实时中子表征技术（中子衍射/中子成像）能源材料研究中的应用，开展锂/钠离子电池关键材料与全固态电池的结构与性能关系研究，探索电池材料的体相与界面结构演化机制及性能改善策略，开发高比能、长寿命、高功率、低成本、高安全性的全固态电池技术，促进全固态电池的商业化步伐。获国家、省、市多项项目支持；与北大、北航联合获得国家自然基金委重大仪器项目“动力电池全生命周期质量状态的双源多模式原位层析成像检测系统研制(52227802)"支持；广东省“珠江人才计划”引进创新创业团队项目-“电化学储能中金属有机骨架材料（MOF）的深度应用”第一核心成员。团队积极与产业界合作，与宁德时代、比亚迪、新宙邦、金羽新能等电池头部和创新企业密切合作，基于中子技术开展固态电解质研究，推动广东省全固态电池产业化发展。此外，基于原位/实时中子表征技术开展天然气水合物、页岩（油、气）、天然氢矿等矿石能源材料、碳捕捉等双碳材料的宏微观结构表征与理论计算分析。

       发表学术论文140余篇（包括Nat Commun., JACS , Natl. Sci. Rev., Energy Stor. Mater.等期刊), 申请发明专利60余项，编制国家标准 3 项，其中主持编写的《无损检测 热中子照相检测总则和基本规则 GB/T31363-2015》为我国第一项中子照相国家标准。担任《第二届全国射线成像新技术及应用研讨会-2018》大会联合主席，组织第一次在中国举办的国际中子照相应用会议（ITMNR-8）和多届全国中子散射会议。与德国 HZB、 FRMII、美国 NIST、瑞士 PSI、日本 J-PARC 等中子科学团队建立了密切的合作关系，成功完成了国际原子能机构IAEC的技术协作项目（TC-Project），参加中子照相国际标准研讨。

所获荣誉

1. 深圳市南山区高层次人才，2023年-2026年；

2. 第二十三届中国专利奖优秀奖：《一种压水堆乏燃料元件三维中子照相无损检测方法》，国家知识产权局，2022年 ；

3. 2021年度北京市科学技术奖科学技术进步奖二等奖：《能源材料微观结构同步辐射与中子原位表征装置与技术》，北京市科学技术委员会， 2022年；

4. 中核集团科技成果三等奖 《核燃料元件中子照相无损检测方法研究》（证书号2015-3-36-03），中国核工业集团，2016年；

5. 中国原子能科学研究院核物理所创新团队 2018年；

6. 中国原子能科学研究院学术带头人培养对象 2013年；

7. 南方科技大学“科研管理贡献奖” 2023年。

    

发表文章(总计约140余篇。入职南科大后发表55篇，其中通讯作者25篇）

【1】Bolong Hong†, Lei Gao†, Changping Li, Genming Lai, Jinlong Zhu1*,  Dubin Huang, Yunxing Zuo, Wen Yin, Mengyu Sun, Shusen Zhao, Jiaxin Zheng, Songbai Han*, Ruqiang Zou*，All-solid-state batteries tailored for operating under deep-freezing conditions, Nature Communications, 2024, Accpeted.

【2】 Bolong Hong, Lei Gao*, Pengfei Nan, Yuhang Li, Ming Liu, Ruqiang Zou, Jun Gu, Qiang Xu, Jinglong Zhu*, Songbai HAN*，Novel Amorphous Nitride-Halide Solid Electrolytes with Enhanced Performance for All-Solid-State Batteries, Angew. Chem. Int. Ed. 2024, e202415847.

【3】Jin-Hao Zhang, Xiao-Zhong Fan, Xiao-He Zhou, Ru-Jie Hu, Na Du, Cao Guan, Song-bai Han*, Bo-Quan Li*, Long Kong*, Charging lithium polysulfides by cationic lithium nitrate species for low-temperature lithium−sulfur batteries, Energy Storage Materials, Volume 73, 2024, 103786.

【4】 Pengcheng Yu, Wei Xia*, Fiaz Hussain, Wen Tang, Jiuwei Lei, Lei Gao , Jinlong Zhu, Wen Yin, Hao Zhang, Wei Chen, Songbai Han*, Ruqiang Zou*, Yusheng Zhao, Xueliang Sun*，Lithium-Stable Antifluorite Electrolytes for Solid State Batteries，J. Am. Chem. Soc.，2024, 146(18)

【5】Gao L., Zhang X., Zhu J., Han S.*, Zhang H., Wang L., Zhao R., Gao S., Li S., Wang Y., Huang D., Zhao Y., Zou R.*,Boosting lithium ion conductivity of antiperovskite solid electrolyte by potassium ions substitution for cation clusters, 2023, Nature Communications, 14, 1 6807.

【6】 Gao L. #, Han S.*, Ni H., Zhu J., Wang L., Gao S., Wang Y., Huang D., Zhao Y., Zou R., Application of neutron imaging in observing various states of matter inside lithium batteries, 2023, National Science Review, 10, 11, nwad238.

【7】 Tang H., Cheng Y., Yuan X., Zhang K., Kurnosov A., Chen Z., Xiao W., Jeppesen H.S., Etter M., Liang T., Zeng Z., Wang F., Fei H., Wang L., Han S., Wang M.-S., Chen G., Sheng H., Katsura T.，Toughening oxide glasses through paracrystallization, 2023, Nature Materials, 22, 10, 1189-1195.

【8】 Pengfei Wang, Yun Li, Ningru Sun, Songbai Han, Xiaomeng Wang, Qinqin Su, Yanjun Li, Jian Hee, Xiaohui Yu, Shiyu Du, Joseph S. Francisco, Jinlong Zhu*, Yusheng Zhao，Hydrate Technologies for CO2 Capture and Storage: Status and Perspectives，Chem. Rev. 2024, 124, 18, 10363–10385

【9】  Jiangyang Pan, Lei Gao, Xinyu Zhang, Dubin Huang, Jinlong Zhu, Liping Wang, Yadong Wei, Wen Yin, Yuanguang Xia, Ruqiang Zou, Yusheng Zhao, and Songbai Han*，Exploring the Underlying Correlation between the Structure and Ionic Conductivity in Halide Spinel Solid-State Electrolytes with Neutron Diffraction, 2024, Inorg. Chem., 63, 7, 3418–3427.

【10】Yang Z., Zhao E., Li N., Gao L., He L., Wang B., Wang F., Zhao Y., Zhao J., Han S.*, Suppressing Surface Ligand-to-Metal Charge Transfer toward Stable High-Voltage LiCoO2,2024, ACS Applied Materials and Interfaces, 16, 1,1757-1766

【11】Yun Li, Hui Tang, Xinyu Zhang, Zhouhua Wang, Bao Yuan, Xuechi Liu, Meng Han, Pengfei Wang, Songbai Han*, Jinlong Zhu*, Phase-Equilibrium Characteristics of Methane Hydrate in Clay Mineral Suspensions: Differential Scanning Calorimetry Experiments and Density Functional Theory Studies, 2024, Journal of Colloid and Interface Science, Volume 662, Pages 1026-1032.

【12】Z. Lin, H. Zhu, L. Qian, X. Tang, J. Wen, Y. Wang, X. Wang*, S. Han*, J. Zhu*, H. Lin*, Y. Zhao, Modulating the Coordination Chemistry of Cobalt Catalytic Sites by Ruthenium Species to Accelerate the Polysulfide Conversion Kinetics in Lithium-Sulfur Batteries，Chem. Eur. J. 2024, e202400945.

【13】Xin Wang, Zhiqiang Yang, Na Li, Kang Wu, Kesheng Gao,Enyue Zhao*, Songbai Han*, and Wenhan Guo*, Influence Mechanism of Interfacial Oxidation of Li3YCl6 Solid Electrolyte on Reduction Potential, 2024，Chem. Eur. J., e202303884.

【14】Tang H., Li Y., Bao W., Wang P., Wang X., Su Q., Zhao Y., Zhu J., Han S.*, Methane hydrate formation in clay mineral suspensions containing glycine: Experimental study and molecular dynamics simulation, 2023, Journal of Molecular Liquids, 390, 123124.

【15】Zhang J., Fu Q., Li P., Linghu R., Fan X., Lin H., Bian J., Han S.*, Sun G.*, Kong L.* Lithium polysulfide solvation and speciation in the aprotic lithium-sulfur batteries 2024，Particuology，89，238-245.

【16】Hong B., Gao L., Di L., Wang L., Huang D., Zou R., Zhao Y., Han S.*, Zhu J.* Inducing spherical Li deposition via an indium layer at the interface between solid electrolyte and Li metal, 2023, Cell Reports Physical Science, 4, 12, 101729.

【17】Lei Gao, Jiangyang Pan, Longbang Di, Jinlong Zhu, Liping Wang, Ruqiang Zou, Le Kang**, Songbai Han*, Yusheng Zhao,Neutron diffraction for revealing the structures and ionic transport mechanisms of antiperovskite solid electrolytes, Chinese Journal of Structural Chemistry, Vol 42, Issue 5, 2023.

【18】Li Y., Xiao S., Yuan B., Wang P., Zhang B., Su Q., Wang X., Han S.*, Zhu J.*, Zhao Y.   Ability of ionic liquids to inhibit the formation of methane hydrate: Insights from molecular dynamics simulations，2023, Gas Science and Engineering, 110, 204878.  

【19】 Gao L., Song M., Zhao R., Han S.*, Zhu J., Xia W., Bian J., Wang L., Gao S., Wang Y., Zou R., Zhao Y. , Effects of fluorination on crystal structure and electrochemical performance of antiperovskite solid electrolytes, 2023, Journal of Energy Chemistry，77, 521-528.

【20】Di L., Pan J., Gao L., Zhu J., Wang L., Wang X., Su Q., Gao S., Zou R., Zhao Y., Han S.* , Effect of grain boundary resistance on the ionic conductivity of amorphous xLi2S-(100-x)LiI binary system, 2023, Frontiers in Chemistry, 11, 1230187.            

【21】 Li Y., Zhu J., Han S.*, Zhang B., Tang H., Yuan B., Wang P., Bao W., Wang X., Zhao Y. Molecular dynamics simulations of CH4/CO2 hydrates nucleation in kaolinite particles, 2023, Applied Surface Science, 607, 154911.

【22】 Sun K., Lin H., Zhang R., Zhu J., Wang L., Han S.*, Wang X.    Influences of Ce3+ dosage, NH4Cl flux, and post-treatment on the structure and luminescence properties of Ce-activated La–Si–O–N for laser lighting, 2023, Optical Materials, 144, 114362. 

【23】 Li Y., Zhang B., Song H., Yuan B., Wang P., Han S.*, Zhu J.,  Zhao Y.,  Effects of the Na+/Ca2+Ratio and Cation Type in the Montmorillonite Interlayer on the Intercalated Methane Hydrate Formation: Insights from Molecular Dynamics Simulations,  2022,  ACS Earth and Space Chemistry,  6,  11,  2745-2754.

【24】Yuan X., Cheng Y., Tang H., Wang P., Liu F., Han S.*, Zhu J., Wang M.-S., Wang L. , sp2-to-sp3 transitions in graphite during cold-compression, 2022, Physical Chemistry Chemical Physics, 24, 17, 10561-10566.

【25】 Li Y., Chen M., Tang H., Han S.*, Song H., Wang P., Zhao Y., Zhu J., Insights into Carbon Dioxide Hydrate Nucleation on the External Basal Surface of Clay Minerals from Molecular Dynamics Simulations, 2022, ACS Sustainable Chemistry and Engineering.                            

【26】Li Y., Han S.*, Zhang B., Tang H., Han J., Kang H., Zhao Y., Zhu J. , Nucleation and dissociation of carbon dioxide hydrate in the inter- and intra-particle pores of dioctahedral smectite: Mechanistic insights from molecular dynamics simulations, 2022, Applied Clay Science, 216, 106344.             

【27】Gao L., Zhao R., Han S.*, Li S., Zou R., Zhao Y.  Antiperovskite Ionic Conductor Layer for Stabilizing the Interface of NASICON Solid Electrolyte Against Li Metal in All-Solid-State Batteries, 2021, Batteries and Supercaps, 4, 9, 1491-1498.

【28】 Wu Q.-P., Cai K.-T., Wang Y.-K., Sun K., Yang J.-B., Han S.-B.*, Liu Y.-T.，Microwave absorption properties of co/c and microwave-heat conversion properties of co/c-polyurethane phase change composites, 2021, Chinese Journal of Applied Chemistry, 38     12, 1588-1598.

【29】 Liu X., He L., Wu M., Wei G., Li Z., Li Y., Sun K., Jiao X., Han S.*, Chen D., Study on Indirect Neutron CT Technology of Nuclear Fuel Element Based on Neutron IP Plate, 2021, Yuanzineng Kexue Jishu/Atomic Energy Science and Technology, 55, 5, 939-944.

【30】Juncao Bian, Sifan Ling, Bei Deng, Haibin Lin, Ruo Zhao, Long Kong, Huimin Yuan, Jinlong Zhu, Songbai Han, Liping Wang, Ruiqin Zhang, Yusheng Zhao, Zhouguang Lu      Ternary Rotational Polyanion Coupling Enables Fast Li Ion Dynamics in Tetrafluoroborate Ion Doped Antiperovskite Li2OHCl Solid Electrolyte，2024， Angewandte Chemie，https://doi.org/10.1002/ange.202400144

【31】 Bao Yuan, Meng Han, Yun Li*, Xuechi Liu, Le Kang, Xin Tong, Pengfei Wang, Songbai Han, Jinlong Zhu, Yusheng Zhao, and Qinhong Hu*，Roles of Short- and Long-Chain Organic Matter in Methane Hydrate Formation: Insights from Molecular Dynamics Simulations，Energy Fuels， 2024, XXXX, XXX, XXX-XXX，https://doi.org/10.1021/acs.energyfuels.4c01717

【32】Pengfei Wang; Yiqi Chen; Senyou An; Yun Li; Meng Han; Bao Yuan; Suling Shen; Bin Chen; Songbai Han; Jinlong Zhu; Yusheng Zhao; Heping Xie, A comprehensive review of hydrogen purification using a hydrate-based method, Renewable and Sustainable Energy Reviews, Volume 194, 2024, 114303. https://doi.org/10.1016/j.rser.2024.114303.

【33】Yun Li, Meng Han, Zhouhua Wang, Bao Yuan, Kaixiang Shen, Baifa Zhang, Pengfei Wang, Songbai Han, Jinlong Zhu, Molecular Insights into the Formation of Carbon Dioxide Hydrates on the External Surface of Sodium Montmorillonite in the Presence of Various Types of Organic Matters, Gas Science and Engineering, 2024,205457,

【34】Haiying Hu, Chuanyu Yin, Lidong Dai, Jinhua Lai, Yiqi Chen, Pengfei Wang, Jinlong Zhu, Songbai Han   The role of α-β quartz transition in fluid storage in crust from the evidence of electrical conductivity, Journal of Geophysical Research: Solid Earth, 129,e2024JB029140.

【35】Yifan Xu, Ruo Zhao*, Jiaqi Wang, Zhiyu Chen, Lingling Guo, Bai Li, Lei Gao, Lei Li, Songbai Han, Juncao Bian, Jinlong Zhu, Liping Wang, Yusheng Zhao, Qiang Xu，Design of Quasi-Metal-Organic Frameworks for Solid Polymer Electrolytes Enabling an Ultra-Stable Interface with Li Metal Anode, Angew. Chem. Int. Ed. 2024, e202416170

【36】Li, Y.; Liu, X.; Han, M.; Wang, Z.; Shi, R.; Liao, H.; Yuan, B.; Wang, P.; Han, S.; Zhu, J. ，Methane Hydrate Formation in Amino Acids / Sodium Montmorillonite Systems. Applied Clay Science 2024, 260.

【37】Ying Teng; Pengfei Wang; Hao Long; Yinlong Li; Yun Li; Jianbo Zhu; Heping Xie; Songbai Han; Yusheng Zhao; Jinlong Zhu，Investigation of hydrogen-propane hydrate formation mechanism and optimal pressure range via hydrate-based hydrogen storage, Fuel, Volume 361, 1 April 2024, 130791

【38】Yuan, B., Han, M. (co-first), Li, Y.*, Liu, X., Wang, P., Xu, J., Yin, W., Kang, L., Tong, X., Han, S., Zhu, J., Zhao, Y., Hu, Q.*   Effect of Organic Matter with Various Carbon Chain Lengths on Methane Hydrate Formation: Kinetic, Thermodynamic, and Microstructural Studies，Journal of Molecular Liquids, 2024, 410, 125549

【39】Wang P., Long H., Teng Y., Li Y., Li Y., Zhu J., Xie H., Han S., Zhao Y., Zhu J.，Investigation of hydrogen-propane hydrate formation mechanism and optimal pressure range via hydrate-based hydrogen storage，2024，Fuel，361，130791.

【40】Bao W., Teng Y., Wang P., Li Y., Zhu J., Han S., Zhu J., Xie H., Zhao Y., Molecular analysis of hydrogen-propane hydrate formation mechanism and its influencing factors for hydrogen storage,2024, International Journal of Hydrogen Energy,50, 697-708

【41】Dai G., Zheng Q., Hao Z., Jin C., Cheng W., Yao X., Yan Z., Han J., Liu Y., Han S., Zhu J. Pressure effect on the electrical properties and pressure-induced phase transitions in a three-dimensional Dirac semimetal BaAgBi, 2023, Physica B: Condensed Matter, 666, 415086 

【42】Hussain F., Maqbool H., Han S., Wang L., Zhu J., Zhao Y., Xia W. , Na2FeS2 Cathode for Sodium-Ion Batteries: A Theoretical Study, 2023, ACS Applied Energy Materials,  6, 14, 7563-7570

【43】Xu Y., Zhao R., Gao L., Gao T., Wang W., Bian J., Han S., Zhu J., Xu Q., Zhao Y.    A fiber-reinforced solid polymer electrolyte by in situ polymerization for stable lithium metal batteries, 2023, Nano Research, 16, 7, 9259-9266

【44】Zhang X., Butenko D., Gao L., Ye X., Hong B., Han S., Xia W., Wang S., Sun Y., Zhao Y., Zhu J.   , Synergistic Ion Diffusion in Lithium Titanium Phosphate Conductors: A Tale from Solo to Ensemble, 2023, Chemistry of Materials, 35, 11, 4541-4548

【45】Du S., Han X., Cai W., Zhu J., Ma X., Han S., Chen D., Zhao Y., Li H., Lu H., Yu X.  Formation of the structure-II gas hydrate from low-concentration propane mixed with methane     , 2023, Chinese Journal of Chemical Engineering, 58, 306-314

【46】Tang W., Xia W., Hussain F., Zhu J., Han S., Yin W., Yu P., Lei J., Butenko D.S., Wang L., Zhao Y. , A dual-halogen electrolyte for protective-layer-free all-solid-state lithium batteries, 2023, Journal of Power Sources, 568, 232992         

【47】Song M., Li Y., Gao L., Zhao R., Xu Y., Han S., Zhu J., Wang L., Zhao Y., A,3D Lithiophilic Host for Dendrite-Free Lithium Metal Anode via One-Step Carbonization of an Energetic Metal-Organic Framework, 2023, Small, 2306187, https://doi.org/10.1002/smll.202306187                        

【48】Wang P., Kang H., Teng Y., Li Y., Wang X., Su Q., Zhu J., Han S., Zhao Y., Zhu J. , Quest for optimal nanoconfinement for hydrate-based CO2 capture, 2022, Journal of Environmental Chemical Engineering, 10, 6, 109021       

【49】Aftab W., Shi J., Qin M., Liang Z., Xiong F., Usman A., Han S., Zou R. , Molecularly elongated phase change materials for mid-temperature solar-thermal energy storage and electric conversion, 2022, Energy Storage Materials, 52, 284 290

【50】Zhao Y., Wu Y., Dong C., Han S., Elsworth D., He L.  Hydraulic characterization and modeling of water diffusivity through direct neutron radiography measurement on unsaturated cracked sandstone, 2022, International Journal of Heat and Mass Transfer, 196, 123256         

【51】Wang P., Teng Y., Zhu J., Bao W., Han S., Li Y., Zhao Y., Xie H.  Review on the synergistic effect between metal–organic frameworks and gas hydrates for CH4 storage and CO2 separation applications, 2022, Renewable and Sustainable Energy Reviews, 167, 112807            

【52】Li W., Wang P., Xu C., Tang H., Ren P., Xie Z., Zhou X., Chen J., Wang S., Han S., Zhao Y., Wang L. , High-Pressure and High-Temperature Synthesis and in Situ High-Pressure Synchrotron X-ray Diffraction Study of HfSi2, 2021, Inorganic Chemistry, 60, 20, 15215-15222

【53】Xue S., Zhang P., Wang J., Bao J., Han S., He L., Influences of thermal damage on water transport in heat-treated cement mortar: Experimental and theoretical analyses, 2021, Construction and Building Materials, 288, 123100         

【54】Zhao K., Zhang P., Xue S., Han S., Müller H.S., Xiao Y., Hu Y., Hao L., Mei L., Li Q. , Quasi-elastic neutron scattering (QENS) and its application for investigating the hydration of cement-based materials: State-of-the-art, 2021, Materials Characterization, 172, 110890       

【55】 Deng Z., Ou M., Wan J., Li S., Li Y., Zhang Y., Deng Z., Xu J., Qiu Y., Liu Y., Fang C., Li Q., Huang L., Zhu J., Han S., Han J., Zhao Y. , Local structural changes and inductive effects on ion conduction in antiperovskite solid electrolytes, 2020, Chemistry of Materials, 32, 20, 8827-8835

【56】 Li Z.-Y., Guo H., Ma X., Sun K., Chen D., He L., Han S.*,Al Substitution Induced Differences in Materials Structure and Electrochemical Performance of Ni-Rich Layered Cathodes for Lithium-Ion Batteries, 2019, Journal of Physical Chemistry C, 123, 32, , 19298-19306.

【57】 Li Z.-Y., Wang H., Chen D., Sun K., Yang W., Yang J., Liu X., Han S. *, Improving the Performance of Layered Oxide Cathode Materials with Football-Like Hierarchical Structure for Na-Ion Batteries by Incorporating Mg2+ into Vacancies in Na-Ion Layers, 2018, ChemSusChem, 11, 7, 1223-1231.

【58】Li Z.-Y., Wang H., Yang W., Yang J., Zheng L., Chen D., Sun K., Han S.*, Liu X. , Modulating the Electrochemical Performances of Layered Cathode Materials for Sodium Ion Batteries through Tuning Coulombic Repulsion between Negatively Charged TMO2 Slabs, 2018, ACS Applied Materials and Interfaces, 10, 2, 1707-1718.

【59】Li Y., Li Z.-Y., Sun K., Liu Y.-T., Chen D.-F., Han S.-B.*, He L.-F., Li M.-J., Liu X.-L., Wu M.-M. , Layered Co/Ni-free Mn-rich oxide P2-Na2/3Mn0.8Fe0.1Mg0.1O2 as high-performance cathode material for sodium-ion batteries, 2020, Ionics, 26, 2, 735-743

【60】 Li Y., Sun K., Wang Y., Jiao X., Han S., He L., Li M., Chen D., Liu Y. , Conceptual Design of Thermal Neutron Guide of Neutron Diffractometer for Residual Stress Field and Defect in Material and Component, 2020, Yuanzineng Kexue Jishu/Atomic Energy Science and Technology, 54, 1, 158-165

【61】Li Y., Chen D., Liu X., Li M., Li Y., Han S., Chen X., He L., Sun K. , Design of Radial Collimator of Neutron Diffractometer for Residual Stress and Defect in Material and Component, 2019, Yuanzineng Kexue Jishu/Atomic Energy Science and Technology, 53, 11, 2295-2301

【62】Jin X., Han S., Chen D., He L., Xiao C., Yao Y., Yun W., Liu X., Tang C., Yang J., Wang P., Ni B.    Application of in-beam activation analysis in elemental distribution analysis, 2019, IOP Conference Series: Materials Science and Engineering, 563, 2, 22050         

【63】Zhao Y., Wu Y., Han S., Xue S., Fan G., Chen Z., El Abd A. , Water sorptivity of unsaturated fractured sandstone: Fractal modeling and neutron radiography experiment, 2019, Advances in Water Resources, 130, 172-183

【64】Zhao Y., Xue S., Han S., He L., Chen Z. , Characterization of unsaturated diffusivity of tight sandstones using neutron radiography, 2018, International Journal of Heat and Mass Transfer, 124,  693-705

【65】Yu Z.X., Tian L.C., Han S.B., Li M.J., Liu X.L., Sun K., Liu Y.T., Chen D.F. , Simulations and systematic neutron beam characterisations on two-dimensional position-sensitive neutron detector multi-wire proportional counter with delay-line readout, 2018, Journal of Instrumentation, 13, 8, T08012           

【66】 Zhong R., Yu X., Meng W., Han S., Liu J., Ye Y., Sun C., Chen G., Zou R. A, solvent ‘squeezing’ strategy to graft ethylenediamine on Cu3(BTC)2 for highly efficient CO2/CO separation, 2018, Chemical Engineering Science, 184, 85-92

【67】Zhang P., Wittmann F.H., Lura P., Müller H.S., Han S., Zhao T. ,      Application of neutron imaging to investigate fundamental aspects of durability of cement-based materials: A review, 2018, Cement and Concrete Research, 108, 152-166

【68】Zhang P., Liu Z., Wang Y., Yang J., Han S., Zhao T. , 3D neutron tomography of steel reinforcement corrosion in cement-based composites, 2018, Construction and Building Materials，162, 561-565

【69】Chen M., Zhao E., Chen D., Wu M., Han S., Huang Q., Yang L., Xiao X., Hu Z.      Decreasing Li/Ni Disorder and Improving the Electrochemical Performances of Ni-Rich LiNi0.8Co0.1Mn0.1O2 by Ca Doping, 2017, Inorganic Chemistry, 56, 14, 8355-8362

【70】Zhao Y., Xue S., Han S., Chen Z., Liu S., Elsworth D., He L., Cai J., Liu Y., Chen D.，Effects of microstructure on water imbibition in sandstones using X-ray computed tomography and neutron radiography, 2017, Journal of Geophysical Research: Solid Earth, 122, 7, 4963-4981

【71】Wei G., Chen D., Han S., Liu Y., Wu M., He L., Wang Y. , Study on Quantitative Non-Destructive Test Method for Nuclear Fuel Rods by Three Dimensions Neutron Images, 2017, Hedongli Gongcheng/Nuclear Power Engineering, 38, 71-73

【72】Zhang P., Liu Z., Han S., He L., Müller H.S., Zhao T., Wang Y. , Visualization of rapid penetration of water into cracked cement mortar using neutron radiography, 2017, Materials Letters, 195, 1, 4

【73】Sun L., Han S., Liu Y., Chen D., Hu Z., Liu X. , Facile synthesis and enhanced electrochemical performances of hierarchical ZnFe2O4-graphene hybrid as an anode material for li-ion batteries, 2017, Journal of Nanoscience and Nanotechnology, 17, 3, 2093-2097

【74】Wang Y., Wei G., Wang H., Liu Y., He L., Sun K., Han S.*, Chen D.* , A Study on Inhomogeneous Neutron Intensity Distribution Origin from Neutron Guide Transportation, 2017, Physics Procedia, 88, 354-360

【75】Ma T., Li H., Zheng X., Wang S., Wang X., Zhao H., Han S., Liu J., Zhang R., Zhu P., Long Y., Cheng J., Ma Y., Zhao Y., Jin C., Yu X. , Ultrastrong Boron Frameworks in ZrB12: A Highway for Electron Conducting, 2017, Advanced Materials, 29, 3, 1604003         

【76】 Wu M., Wang W., Jiao X., Wei G., He L., Han S., Liu Y., Chen D. , Structural and multiferroic properties of Pr and Ti co-doped BiFeO3 ceramics, 2016, Ceramics Internationa, 42, 13, 14675-14678

【77】Liu X.-L., Li M.-J., Liu Y.-T., Chen D.-F., Han S.-B., Wu M.-M. Study on resolution and pole figure window of neutron texture diffractometer at china advanced research reactor, 2016, Yuanzineng Kexue Jishu/Atomic Energy Science and Technology, 50, 9, 1694-1700

【78】Liu X.-L., Liu Y.-T., Chen D.-F., Gao J.-B., Li M.-J., Yang L.-F., Han S.-B. , Calibration of neutron residual stress diffractometer at china advanced research reactor, 2016, Yuanzineng Kexue Jishu/Atomic Energy Science and Technology, 50, 8, 1486-1490

【79】Liu X.-L., Li M.-J., Liu Y.-T., Chen D.-F., Liu X.-Z., Gao J.-B., Yang L.-F., Han S.-B., Li Y.-Q. , Experimental software design of neutron residual stress diffractometer at China advanced research reactor, 2016, Yuanzineng Kexue Jishu/Atomic Energy Science and Technology, 50, 5    , 915-920

【80】Zhao H., Liu L., Hu Z., Sun L., Han S., Liu Y., Chen D., Liu X. , Neutron diffraction analysis and electrochemical performance of spinel Ni(Mn2-xCox)O4 as anode materials for lithium ion battery, 2016, Materials Research Bulletin, 77, 265-270

【81】Liu L., Gao R., Sun L., Han S., Chen D., Hu Z., Liu X. , Ultrahigh cycling stability and rate capability of ZnFe2O4@graphene hybrid anode prepared through a facile syn-graphenization strategy, 2016, New Journal of Chemistry, 40 4, 3139-3146

【82】Zhong R., Xu Z., Bi W., Han S., Yu X., Zou R. , A charged metal-organic framework for CO2/CH4 and CO2/N2 separation, 2016, Inorganica Chimica Acta       443, 299-303

【83】 Liu X., Liu Y., Han S., Chen D., Li M., Li Y., Gao J., Yang L. ,Design and Optimization of the Monochromator for the New Residual Stress Diffractometer, 2016, Materials Science Forum, 850, 148-152

【84】He L., Han S.*, Wei G., Wu M., Wang Y., Li Y., Wang H., Liu Y., Che D. , Development and application of neutron imaging technique at china advanced research reactor, 2016, Materials Science Forum, 850, 153-160

【85】Sun L.-M., Han S.-B., Liu Y.-T., Chen D.-F. , Neutron diffraction analysis and magnetic property research of novel rare earth permanent magnetic material Nd2Fe17-x-yNbxAly, 2015, Yuanzineng Kexue Jishu/Atomic Energy Science and Technology, 49, 10, 1729-1733

【86】 Han S., Liu Y., Chen D. , Large-scale scientific facility at china advanced research reactor for neutron scattering, 2015, Kexue Tongbao/Chinese Science Bulletin, 60, 22, 2068-2078

【87】Han L., Wang S., Zhu J., Han S., Li W., Chen B., Wang X., Yu X., Liu B., Zhang R., Long Y., Cheng J., Zhang J., Zhao Y., Jin C. , Hardness, elastic, and electronic properties of chromium monoboride, 2015, Applied Physics Letters, 106, 22, 221902             

【88】Liu Z., Sun L., Yang W., Yang J., Han S., Chen D., Liu Y., Liu X. The synergic effects of Na and K co-doping on the crystal structure and electrochemical properties of Li4Ti5O12 as anode material for lithium ion battery, 2015, Solid State Sciences, 44, 39  44

【89】 Wang Y., Wang H., He L., Wei G., Hao L., Liu Y., Han S., Chen D. , Energy-selective neutron radiography, 2015, He Jishu/Nuclear Techniques, 38     5, 50201        

【90】Zhang X., Hu Z., Xiao X., Sun L., Han S., Chen D., Liu X. , Fe3O4@porous carbon hybrid as the anode material for a lithium-ion battery: Performance optimization by composition and microstructure tailoring, 2015, New Journal of Chemistry, 39, 5, 3435-3443

【91】 Wang Y., Wang H.-L., Liu Y.-T., Sun K., Wei G.-H., He L.-F., Han S.-B.*, Chen D.-F.* , Research on angular divergence distribution of neutron beam at the end of neutron guide, 2015, Yuanzineng Kexue Jishu/Atomic Energy Science and Technology, 49, 2, , 234-239

【92】Wei G., Han S.*, Wang H., He L., Wang Y., Wu M., Liu Y., Chen D. , Experience of the Indirect Neutron Radiography Method Based on the X-ray Imaging Plate at CARR, 2015, Physics Procedia, 69, 258-264

【93】He L., Han S.*, Wang H., Wei G., Wang Y., Wu M., Liu Y., Chen D. , Characterization of a Real-time Neutron Imaging Test Station at China Advanced Research Reactor, 2015, Physics Procedia, 69, 79-86

【94】Chen D., Bao J., Zhang Q., Han S., Ren J., Nie Y., Ruan X., Hou L. , Simulation of Fast Neutron Radiography with a Time-of-Flight System, 2015, Physics Procedia, 69, 284-291

【95】Wang Y., Wang H., Liu Y., Zu Y., He L., Wei G., Sun K., Han S.*, Chen D.* , A study on optical aberrations in parabolic neutron guides, 2015, Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 786, 17-22

【96】Zhao H., Liu L., Xiao L., Hu Z., Han S., Liu Y., Chen D., Liu X. , The effects of Co doping on the crystal structure and electrochemical performance of Mg(Mn2-xCox)O4 negative materials for lithium ion battery, 2015, Solid State Sciences, 39, 23-28

【97】 Sun L.M., Han S.B., Liu Y.T., Chen D.F., Liu X.F.  The crystal structure and magnetic property of Bi-substituted Nd2Fe17-x-yTixSiy intermetallic compounds, 2014, Applied Mechanics and Materials, 644-650, 4950-4955

【98】 Sun L., Han S., Liu Y., Chen D., Hu Z., Liu X. , Influence of y and Al co-doping on the crystal structure and magnetic properties of Nd2-xYxFe17-yAly, 2014, Intermetallics 55, 199-203

【99】Wei G., Han S.*, He L., Wang Y., Wang H., Liu Y., Chen D., Zhao Z. , Optimized design of the nuclear fuel rod transport container used for non-destructive testing with neutron radiography, 2014, He Jishu/Nuclear Techniques, 37, 6, 60601           

【100】Cai Z., Lu H., Zou R., Han S., Wang Z.,Structural and thermodynamic characteristics of sH 2,2-dimethylbutane- methane deuterohydrate,2014,Journal of Chemical Thermodynamics, 77, 82-86

【101】He L., Han S.*, Wang Y., Wei G., Wu M., Wang H., Liu Y., Chen D. , Calculation and analysis of the neutron radiography spatial resolution, 2014, He Jishu/Nuclear Techniques, 37, 4, 40502             

【102】Wei G.-H., Han S.-B.*, Chen D.-F., Wang H.-L., He L.-F., Wang Y., Wu M.-M., Liu Y.-T., Zhao Z.-X. Preliminary study on indirect neutron radiography method at CARR, 2014, Yuanzineng Kexue Jishu/Atomic Energy Science and Technology, 48, 2, 201-207

【103】Hao S., Xiao X., Hu Z., Sun L., Han S., Chen D., Liu X. , Improving the electrochemical performance of Li4Ti 5O12 anode through confinement into ordered bimodal porous carbon frameworks, 2013, Journal of Physical Chemistry C, 117, 51, 26889-26895

【104】Wang W., Li J., Han S., Sun K., Wang H., Liu Y., Chen D. , X-ray analysis on crystal structures of crystalline polyimides, 2013, FENDT 2013 - Proceedings of 2013 Far East Forum on Nondestructive Evaluation/Testing: New Technology and Application, 6635553, 189-191

【105】Han S.B., Liu Y.T. , Crystallographic studies of Nd3-xYxFe27.5TM1.5 (0.6≤x≤2.4, TM=Ti, Mo) compounds, 2013, Advanced Materials Research, 785-786, 634-637

【106】Han S., Wang H. , Crystal structure of tetraaqua-bis(4-(1,2,4-triazol-4-yl)benzoato-κN) -zinc(II) decahydrate, C18H40N6O18Zn, 2013, Zeitschrift fur Kristallographie - New Crystal Structures, 228, 3, 319-320

【107】Wei G., Han S., He L., Wang Y., Wang H., Liu Y., Chen D., Zhao Z. , Non-destructive testing dummy nuclear fuel rods by neutron radiography, 2013, He Jishu/Nuclear Techniques, 36, 7, 70204

【108】Tan H., Qin F., Chen D., Han S., Lu W., Yao X. , Study of glycol chitosan-carboxymethyl β-cyclodextrins as anticancer drugs carrier, 2013, Carbohydrate Polymers, 93, 2, 679-685

【109】Liu X.-L., Chen D.-F., Han S.-B., Li J.-H., Gao J.-B., Liu Y.-T. , Application of Levenberg-Marquardt algorithm in analysis of neutron diffraction peak position for stress measurement, 2013, Yuanzineng Kexue Jishu/Atomic Energy Science and Technology, 47, 3, 468-471

【110】Wang Y., Han S.-B.*, Wang H.-L., Hao L.-J., He L.-F., Wei G.-H., Yu Z.-X., Liu Y.-T., Chen D.-F. , Study on preparation and properties of H310BO3/ZnS(Ag) scintillators for thermal neutron radiography, 2013, Yuanzineng Kexue Jishu/Atomic Energy Science and Technology, 47, 2, 166-171

【111】Wang Y., Han S.*, Hao L., He L., Wei G., Wu M., Wang H., Liu Y., Chen D. , New type of neutron image scintillator based on H3 10BO3/ZnS(Ag) , 2013, Physics Procedia, 43, 216-222

【112】Wei G., Han S.*, Wang H., Hao L., Wu M., He L., Wang Y., Liu Y., Sun K., Chen D. ,  Design of the testing set-up for a nuclear fuel rod by neutron radiography at CARR, 2013, Physics Procedia,  43, 307-313

【113】Han S., Wu M., Wang H., Hao L., Wei G., He L., Wang Y., Liu Y., Chen D. , Design of cold neutron imaging facility at China Advanced Research Reactor, 2013, Physics Procedia, 43, 73-78

【114】He L., Han S.*, Wang H., Hao L., Wu M., Wei G., Wang Y., Liu Y., Sun K., Chen D. , Design of real-time neutron radiography at China Advanced Research Reactor,2013, Physics Procedia, 43, 48-53

【115】Wu M.M., Peng J., Han S.B., Hu Z.B., Liu Y.T., Chen D.F.   Phase transition and negative thermal expansion properties of Sc 2-xCr xMo 3O 12, 2012, Ceramics International, 38, 8, 6525-6529

【116】Wei G., Han S.*, Chen D., Wang H., Hao L., Wu M., He L., Wang Y., Liu Y., Sun K., Zhao Z. , Application of neutron radiography for non-destructive testing nuclear fuel elements, 2012, He Jishu/Nuclear 【117】Han S., Liu Y. Crystal structure of catena-[μ2-bis(biphenyl-2,2'- dicarboxylato-O:O')]-(μ2-pyrazine-N:N')dicobalt(II), Co(C 4H4N2)(C14H8O 4)2，2012  ，Zeitschrift fur Kristallographie - New Crystal Structures, 227, 2, 269-270

【118】Wang Y., Han S.*, He L., Wei G., Hao L., Wu M., Wang H., Liu Y., Chen D. , Calculation methods for neutron radiography spatial resolution, 2012, He Jishu/Nuclear Techniques, 35, 4, 275-280

【119】Peng J., Wu M.M., Guo F.L., Han S.B., Liu Y.T., Chen D.F., Zhao X.H., Hu Z. , Crystal structure and negative thermal expansion of solid solution Y 2W3-xMoxO12, 2011, Journal of Materials Science , 46, 15, 5160-5164

【120】Zou R., Zhong R., Han S., Xu H., Burrell A.K., Henson N., Cape J.L., Hickmott D.D., Timofeeva T.V., Larson T.E., Zhao Y. , A porous metal-organic replica of α-PbO2 for capture of nerve agent surrogate, 2010, Journal of the American Chemical Society, 132, 51, 17996-17999

【121】Peng J., Liu X.-Z., Guo F.-L., Han S.-B., Liu Y.-T., Chen D.-F., Hu Z.-B. , Crystal structure and negative thermal expansion of solid solution Lu 2W3-xMoxO12, 2010, International Journal of Minerals, Metallurgy and Materials, 17, 6, 786-790

【122】Peng J., Liu X.Z., Guo F.L., Han S.B., Liu Y.T., Chen D.F., Hu Z. , Crystal structure and negative thermal expansion of solid solution Yb 2W3-xMoxO12, 2010 , Materials at High Temperatures, 27  2, 151-156

【123】Li J.-H., Gao J.-B., Li J.-Z., Han S.-B., Zu Y., Liu R.-D., Liu X.-L., Liu Y.-T., Chen D.-F. , Design and application of neutron residual stress diffractometer for China Advanced Research Reactor, 2010, Yuanzineng Kexue Jishu/Atomic Energy Science and Technology, 44, 4, 484-488

【124】PENG J., LIU X.-z., GUO F.-l., HAN S.-b., LIU Y.-t., CHEN D.-f., ZHAO X.-h., HU Z.-b. Crystal structure and negative thermal expansion properties of solid solution Er2W3-xMoxO12, 2009, Transactions of Nonferrous Metals Society of China (English Edition) , 19, 6, 1623-1627

【125】Deng J., Chen J., Yu R., Liu G., Xing X., Han S., Liu Y., Chen D., He L. , Neutron powder diffraction study and B-site ordering in microwave dielectric ceramics Ba(Ca1/3Nb2/3)O3, 2009, Solid State Sciences    , 11, 1, 170-175

【126】Lv J., Yao B., Liu X., Han S., Hu Z. , Structure and magnetic properties of Nd3-xDyxFe23-yCo6Moy (x = 0.5-3) compounds   2008, Solid State Sciences, 10, 10, 1412-1415

【127】Li X.J., Liu X.F., Lv J.Y., Han S.B., Nie D.P., Hu Z.B., Yuan Z.B., Chen D.F. , Crystallographic structure and magnetic properties of NdyDy1-yFe11-xTiCox compounds, 2007 Journal of Alloys and Compounds, 438, 1，21-24

【128】 Han S.B., Lv J.Y., Liu X.F., Peng J., Chen D.F., Li J.H., Hu Z.B. , Formation, structure and magnetic properties of Nd3-xZrxFe27.8Mo1.2 (0.1 ≤ x ≤ 0.5) compounds, 2007, Journal of Alloys and Compounds, 431, 1, 68-71 

【129】Liu X.F., Lv J.Y., Hu Z.B., Han S.B., Chen D.F., Xue Y.J., Li J.H., Kiyanagi R., Fieramosca J.S., Short S., Jorgensen J. , Effects of the substitution of Al for Fe on phase transition, crystal structures, and magnetic properties of Nd3 (Fe,Ti)29-type intermetallics, 2006, Journal of Applied Physics, 100, 10, 103910   

【130】 Han S.B., Liu X.F., Lv J.Y., Peng J., Hao Y.M., Li X.J., Chen D.F., Xue Y.J., Li J.H., Hu Z.B., Crystallographic and magnetic properties of (Nd,Dy)3Fe27.5(Ti,Mo)1.5 compounds, 2006, Journal of Magnetism and Magnetic Materials, 301, 2, 415-421

【131】Liu X.F., Lv J.Y., Han S.B., Hao Y.M., Hu Z.B., Chen D.F., Xue Y.J., Li J.H. , Cooperative effects of a combined substitution on the magnetic properties of Nd 2-xY xFe 17-ySi y intermetallic compounds (0≤x≤1.5, 0≤y≤3.0) , 2006, Journal of Applied Physics, 99, 2, 23904           

【132】Liu X.F., Chen D.F., Hao Y.M., Lv J.Y., Han S.B., Xue Y.J., Li J.H., Hu Z.B. , Investigations on the structural and magnetic properties of doubly substituted Nd2Fe17-x-yTixGay compounds (0 ≤ x ≤ 1.0, 0 ≤ y ≤ 3) , 2006, Journal of Alloys and Compounds, 407,1, 58-64

【133】Lv J.Y., Liu X.F., Han S.B., Li X.J., Hu Z.B., Li J.H., Xue Y.J., Chen D.F. , Structure and magnetic properties of (Nd,Y)3(Fe,Co,Ti) 29 compounds     , 2005, Physica B: Condensed Matter, 369, 1, 266-272

【134】Han S.B., Lv J.Y., Liu X.F., Peng J., Chen D.F., Xue Y.J., Li J.H., Hu Z.B. , Synthesis and structural properties of Nd3-xYxFe 27.5Ti0.8Mo0.4(0 ≤ x ≤ 1.8) and Nd 3-x′Yx′Fe27.8Mo1.2(0 < x′ ≤ 2.8) intermetallic compounds, 2005, Journal of Alloys and Compounds, 403, 1, 168, 175

【135】 Han S.B., Lv J.Y., Liu X.F., Peng J., Li X.J., Chen D.F., Xue Y.J., Li J.H., Hu Z.B. , Effects of substitution of Dy for Nd on the structural and magnetic properties of Nd3-xDyxFe27.5Mo 1.5 (0.3≤x≤1.8) , 2005, Physica B: Condensed Matter, 367, 1, 275-281

【136】 Han S.B., Lv J.Y., Liu X.F., Peng J., Li X.J., Chen D.F., Xue Y.J., Li J.H., Hu Z.B. , The effect of Zr addition on the formation and structural properties of 3:29 compounds in the Fe-Nd-Ti-Zr system, 2005, Journal of Physics Condensed Matter, 17, 38, 6007-6014

【137】Liu X.F., Han S.B., Lv J.Y., Li X.J., Hu Z.B., Chen D.F., Xue Y.J., Li J.H. , The effects of the combined substitution of y and Ga on the crystallographic structure of Nd2-xYxFe 17-yGay intermetallic compounds, 2005, Journal of Alloys and Compounds, 400, 1, 178-183

【138】Lv J.Y., Han S.B., Liu X.F., Li X.J., Hu Z.B., Li J.H., Xue Y.J., Chen D.F. Structure analysis of Nd 3-xY xFe 23-yCo 6Mo y (x=0.36-3.0;y=1.1,0.9) compounds, 2005, Journal of Applied Physics, 98, 3, 33903

【139】Liu X.F., Lv J.Y., Han S.B., Peng J., Wang H., Hu Z.B., Chen D.F., Xue Y.J., Li J.H. , Effects of double substitution on the magnetic properties of Nd 2Fe 17-x-yTi xAl y: A combined investigation of x-ray diffraction, neutron diffraction, and magnetic measurement, 2005, Journal of Applied Physics, 98, 1, 13537

【140】Chen H., Cao Y., Han S., Zhang H., Yu A., Jin Q. Two new ways to improve the sensitivity of spectrophotometry      , 2001, Fenxi Huaxue, 29, 4, 482-483

【141】Chen H., Yu A., Han S., Li S., Zhang H., Jin Q.    Fast in situ determination of iodate in salt with portable iodine meter of high sensitivity, 2001, Fenxi Huaxue, 29, 7,858

发明专利

[1]      CN202410550011.0       复合负极电解质片及其制备方法、固态电池

[2]      CN202410357336.7       液态锂硫电池正极催化剂及其制备方法、正极材料及其制备方法、正极极片、液态锂硫电池

[3]      CN202410335721.1       一种固态电解质及制备方法与固态电池

[4]      CN202410252443.3       一种固态电解质材料、其制备方法和锂离子电池CN202410216198.0  一种锂硫电池中间层材料及其制备方法、锂硫电池

[5]      CN202410082588.3       一种用于界面水的检测装置及检测方法

[6]      CN202410046890.3       基于中子散射的多相渗流实验装置及方法

[7]      CN202311804592.8       卤化物全固态电池及其制备方法、用电装置

[8]      CN202410145699.4       一种原位压力电池测试模具以及电池性能的测试方法

[9]      CN202410050244.4       固态电解质及其制备方法及电池

[10]    CN202410161272.3       一种模拟地层原位应力条件的渗流中子散射装置及方法

[11]    CN202311816846.8       一种过渡金属硼化物及其制备方法

[12]    CN202311690512.0       一种反钙钛矿固态电解质及其制备方法、全固态电池

[13]    CN202311769130.7       固态电解质材料及其制备方法、固态电解质片和全固态电池

[14]    CN202311318224.2       一种二元固态电解质材料、其制备方法和应用

[15]    CN202311199911.7       一种复合固态电解质、锂离子电池及其制备方法

[16]    CN202310970780.1       一种固态电解质及其制备方法、锂离子电池

[17]    CN202310972507.2       一种锂离子电池及其制备方法

[18]    CN202310674586.9       一种硼掺杂金刚石、制备方法及应用

[19]    CN202310531996.8       复合电解质层结构、电极组件以及电池

[20]    CN202310100753.9       一种黏土矿物体系气体吸附性能的检测设备和检测方法

[21]    CN202310021147.8       光电玻璃及其制备方法、发光器件

[22]    CN202210993498.0       一种微波分解天然气水合物的系统及方法

[23]    CN202210896368.5       反钙钛矿固态电解质材料及其制备方法、固态电解质片和全固态电池

[24]    CN202210627825.0       一种成像设备及成像方法

[25]    CN202210624291.6       一种应用于中子散射和成像实验的高压实验装置

[26]    CN2021111076894        电芯的原位测试模具及对电芯进行中子测试的方法

[27]    CN202111293191.1       用于放射性样品的中子照相的检测系统

[28]    CN202110356218.0       中子成像和X射线成像系统、方法以及装置

[29]    CN202110178233.0       一种用于放射性样品直接中子照相无损检测的检测装置及检测方法

[30]    CN202110178133.8       用于放射性样品中子照相无损检测的数字成像板，以及放射性样品中子照相无损检测方法

[31]    CN202010435073.9       一种节约型He-3气体灌充系统及方法

[32]    CN201910062118.X       中子单色器屏蔽系统

[33]    CN201811617556.X       发散角连续可调的中子准直器结构及其标定方法

[34]    CN201811618906.4       发散角连续可调的中子准直器结构及其标定方法

[35]    CN201810815502.8       测量冷中子源增益的方法

[36]    CN201510431792.2       一种压水堆乏燃料元件三维中子照相无损检测方法

[37]    CN201510431174.8       一种压水堆乏燃料元件间接中子CT成像装置

[38]    CN201510226446.0       用于放射性样品中子残余应力测量的屏蔽装置

[39]    CN201410600326.8       一种中子衍射高压腔体的钨基中子透明材料及其制备方法

[40]    CN201410600327.2       一种中子衍射高压腔体的铁基中子透明材料及其制备方法

[41]    CN201410443111.X       一种用于中子Soller准直器发散角测试方法

[42]    CN201410412062.3       一种微通道中子示踪仪

[43]    CN201210320876.5       脉冲幅度甄别器甄别阈测定方法及系统

[44]    CN201210320879.9       核辐射探测器工作电压标定方法及系统

[45]    CN201210320771.X       气体核辐射探测器收集的电荷数与外加电压的关系曲线测量方法及系统

[46]    CN201110332619.9       多用途冷中子束流品质测量用飞行时间设备

[47]    CN201110276888.8       中子衍射残余应力测定装置与方法

[48]    CN201110200108.1       中子吸收层载体拉伸装置

[49]    CN201110179455.0       中子束流位置探测仪

[50]    CN201110179586.9       压水堆核燃料棒中子照相检测装置及检测方法

[51]    CN201110179553.4       使用漆膜制备器制备热中子闪烁体转换屏的方法

[52]    CN201110179535.6       使用压片机制备热中子闪烁体转换屏的方法

[53]    CN201110179587.3       中子照相无损检测专用核燃料元件转移容器

[54]    CN201110179496.X       多轴中子单色器姿态调整装置

[55]    CN201110179451.2       一种便携式中子探测装置

[56]  CN201110179546.4       使用雾化器制备热中子闪烁体转换屏的方法

[57]  CN201110179475.8       一种用于中子衍射样品原位实验的镜面高温炉装置

[58]  CN201110179473.9       高速中子摄像装置

[59]  CN200910119503.X       中子单色器屏蔽装置

[60]  CN200710151357.X       锗单晶热压形变装置

[61]  CN200710151358.4       锗单晶热压形变工艺

制定国家及行业标准

[1]    国家标准GB/T31363-2015《无损检测 热中子照相检测总则和基本规则》，2015-02-04发布，2015-10-01实施。（主持）

[2]    国家标准GB/T31362-2015《无损检测 热中子照相检测中子束L/D比的测定》，2015-02-04发布，2015-10-01实施。（主持）

[3]    国家标准GB/T34641-2017《无损检测 直接热中子照相检测的像质测定方法》，2017-09-29发布，2018-04-01实施。（参与）

[4]    团体标准 中国国际经济技术合作促进会《锂离子电池失效分析》（T/CIET 582-2024），2024-7-31发布与实施。（主持）

[5]    中关村标准化协会 团体标准《无负极锂金属电池及电池组》(T/ZSA 256-2024)，2024-10-08发布。(参与）

[6]    航天行业标准 QJ3037 《航天火工装置中子照相检验方法》，2018年制定。（参与）

[7]    中国工程建设协会《钢板（管）混凝土脱空缺陷中子检测方法》（建标协【2019】12号）。（参与）

[8]    中国材料与试验团体标准 CSTM LX 9803 01035—2022 《钛合金 三维氢分布测定 中子成像法》（参与）

[9]    中国检验检测学会 团体标准 《全固态电池用富锂锰基材料》，2024年制定中。（参与）

承担科研项目

（入职南科大后获批 10项，个人名下经费：科研项目3459.4万，工程项目约2.6亿）

[1]    国家科技部重点研发计划“大科学装置前沿研究”重点专项“高性能中子超镜导管关键技术研发及应用”项目“高性能中子超镜元件制作技术”课题, 项目批准号：2023YFA1608802 ，资助额度：384.4万元，2023/12-2028/11，在研，主持；

[2]    国家自然基金委-面上项目，“基于中子衍射技术的富锂固态电解质材料晶体结构与超离子传导机制研究（12275119）”，2023-2026，主持，在研，56万；

[3]    国家自然基金委-国家重大科研仪器研制项目，“动力电池全生命周期质量状态的双源多模式原位层析成像检测系统研制”（北大、南科大、北航），2023-2027，课题负责人，在研，769万（194万）；

[4]    深圳市技术攻关重大项目，“重2022D010光子计数能谱CT探测器研发”，2023-2026，主持，在研，2500万；      

[5]    广东省“珠江人才计划”引进创新创业团队项目，“电化学储能中金属有机骨架材料（MOF）的深度应用”，2022.12.1-2027.11.30，第一核心成员，在研， 245万；

[6]    广东省基础与应用基础研究基金区域联合基金重点项目，高比能钠离子氧化物正极材料储钠机制的原位中子散射研究，2023.11.01 -- 2026.10.30，子课题负责人 30万，在研。

[7]    深圳市自然科学基金-面上项目，"基于中子全散射方法的非晶态固态电解质材料微观结构及离子输运机制研究“，2023-2025，主持，在研，30万； 

[8]    松山湖材料实验室开放课题-重点项目，“无机快离子导体晶体结构无序与离子输运性能关联机制的中子PDF研究（2022SLABFK04）”，2023-2024，主持，在研，20万；

[9]    深圳市材料基因组大科学装置平台重大科技基础设施 “高压中子谱仪建设项目”，项目批准号：深发改【2019】1097号，资助额度：2.4亿元，2020/09-2023/10，在研，负责人；

[10] 深圳市发展和改革委员会战略性新兴产业重大科技基础设施关键技术和设备研发扶持计划 “高通量中子谱仪平台关键技术及设备研发”，项目批准号：ZDKJ20190101001，资助额度： 2440万元，2019/06-2021/05，结题，执行人；

[11]  国家科技部重点研发计划“大科学装置前沿研究”重点专项“中子散射原位实验技术研究和样品环境建设项目”，“放射性样品中子CT实验环境” 课题, 项目批准号：2016YFA0401502，资助额度： 715万元，2016/06-2021/05，结题，主持；

[12]  国家自然基金委 面上项目“金属有机框架材料（MOFs）基新一代热中子闪烁体研究”，项目批准号：11375271，2014－2017，90万，结题，主持；

[13]  国际原子能机构TC项目 “中子照相装置研制及其方法学研究(Development and Application of the Neutron Imaging Facilities at CARR）”，国际原子能机构，项目号：CPR0013，2014-2016，29.64万欧元，结题，负责人；

[14]  国家自然基金委 中-埃国际（地区）合作与交流项目，“裂隙砂岩非饱和渗流机理的中子层析成像研究”，项目批准号：51861145403,170万，2019.01-2021.12，结题，核心成员；

[15]  国家自然基金委，国家大型科学仪器项目 “材料与构件深部应力场及缺陷无损探测中子谱仪研制”，项目号51327902，2014－2018，总经费7600万（原子能院3006.5万），结题，原子能院方负责人；

[16]  国家自然基金委，国家大型科学仪器项目 “冷中子非弹性散射谱仪的研制”，项目号11227906，2013－2018，1.11亿，结题，核心成员；

[17]  中国科学院重大科研仪器研制项目，高分辨中子衍射谱仪的研制，2018.01 -2020.12，1000万，结题，项目共同负责人。

[18]  基地建设新堆配套项目“中国先进研究堆中子照相装置研制”，KGJ，2014－2017，2300万，结题，负责人；

[19]  HNKF项目 “基于中国先进研究堆开展核能材料中子无损检测及性能评估” 项目, “核燃料元件内部缺陷的无损检测研究”课题，资助额度：1013万元，2018-2021，结题，负责人；

[20]  HNKF项目“中国先进研究堆储氢材料测试分析技术与实验方法研究”课题一：“储氢材料的中子散射特殊样品环境装置研发”，国家KGJ，2010-2012，685万，结题，负责人；

[21]  国家科技部，973项目“中国先进研究堆中子束应用关键技术及若干科学问题”课题一“反应堆中子束优化及特殊样品环境研究”，课题号2010CB833101，2010-2014，245万，执行人/学术骨干；

[22]  国家科技部，973项目“中国先进研究堆中子束应用关键技术及若干科学问题”课题六“中子在物质中的衰减及中子成像研究”，课题号2010CB833106，2010-2014，105万，执行人；

[23] 国家科技部，国家科技支撑计划项目“中子散射冷源关键技术和部件的研究与开发”，项目号：2009BAK60B00，2010－2012，550万，结题，骨干；