教授-研究员

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黄青松

发布时间 :2018年07月12日      阅读量:

    黄青松教授/博导

    学位学历:工学博士/博士后(材料学)

    Email:qshuang@scu.edu.cn

    qshuang21@sohu.com

    通讯地址:610065,成都市一环路南一段24号,

    bevictor伟德官网

     

    教育经历

     

    个人简历

    • 2008年于北京科技大学新金属材料国家重点实验室获得博士学位;2008-2013年先后于中国科学院物理研究所、韩国科技学院(KAIST, Postdoc Fellow)、新加坡国立大学(NUS, Research Fellow)等大学和研究所从事博士后研究工作。

    • 2013年4月起,bevictor伟德官网,副教授,教授。主持国家自然科学基金面上项目3项,四川省科技厅重点研发项目1项,伟德bevictor中文版引进人才基金一项。参与中科院知识创新工程项目一项,参与国家自然科学基金面上项目两项。在SCI/EI级别期刊共发表文章60余篇,他引1000余次。已授权发明专利15项。

    • 期刊审稿:Nature Nanotech., ACS Ener. Lett., 2D Mater.欧洲化学等期刊审稿人。

    • 担任Current Chinese Chemistry和《当代化工研究》编委。

    研究兴趣

    • 二维层状材料及其一维纳米结构的裁剪及组装研究,包括:石墨烯、石墨烯纳米条带、石墨烯量子点、及类石墨烯(MoS2, MXene等)等半导体材料的生长、表征及应用,主要集中在锂离子电池、太阳能电池、光催化、及上转换荧光等方面。

    • 硅碳负极的改性及其在电池中的应用。

    • 新型二维卤烯材料:首次提出包括碘烯及砹烯等新型结构和类卤键轨道杂化,目前还仅限于第一性原理计算成果,进一步地可深入进行实验研究。

    • 汽车轻量化研究,ODS钢等的研究。

    科研项目

    • 1)省科技厅重点研发项目,课题名称:石墨烯条带负载稀土离子的上转换吸光性能研究,(Grant No.2020YFG0102, 2020.01-2021.12)。已结题,主持

      2)国家自然科学基金(NSFC),课题名称:DP1200双相钢基体中共格纳米粒子的控制析出行为研究(Grant No. 51771125, 2018.01-2021.12)。已结题,主持

      3)国家自然科学基金(NSFC),课题名称:一维石墨烯纳米条带上转换基础研究(Grant No. 51472170,2015.01-2018.12)。已结题,主持

      4)伟德bevictor中文版引进人才基金,课题名称:多元复合合金炼钢过程夹杂物改性的基础研究(Grant No. 21376154, 2013.01-2015.12)。已结题,主持

      5)国家自然科学基金(NSFC);课题名称:基于SiC单晶的石墨烯和类石墨烯外延生长和表征研究(Grant No. 50472162,2010.01-2012.12)。已结题,主持

      6)参与国家自然基金面上项目2项,及中国科学院知识创新工程项目1项。

    教改项目

    • 1. 伟德bevictor中文版新世纪公司产品改革工程(第八期)研究项目:新材料技术课程改革与员工创新创造能力培养探究。伟德bevictor中文版,SCU8368,2018,已结题,主持

      2.伟德bevictor中文版新世纪高等公司产品改革工程(第七期)研究项目:冶金工程专业课程数据库采集及优化设置研究。伟德bevictor中文版,2016,已结题,主持

      3.伟德bevictor中文版新世纪高等公司产品改革工程(第十期)研究项目:双碳背景下的《先进炭材料基础》课程,科教融合注重实践教学探索,2023,在研,主持

    在校和毕业员工

    • 往届毕业生(部分)

      朱志青(Zhu Zhiqing),东南大学(Southeast University)博士研究生(PhD student),硕士论文题目: “液态金属法低维氧化物可控生长及储能研究”(Controllable Growth by Liquid Metal Strategy of Low-Dimensional Oxides for Energy Storage)

      伍超众(Wu Chaozhong),中南大学粉末冶金研究院,博士在读。硕士论文题目: “MXene及其前驱体MAX相制备与储能研究”(Master Thesis: MXene and its precursor MAX phase prepared for lithium storage)

      韩珊珊(Han Shanshan),四川省生态环境科学研究院,质控室负责人。硕士论文题目:氯氧铋低维结构控制及其工业有机物降解行为研究(Master Thesis: Controllable synthesis of low-dimensional bismuth oxychloride for degradation of industrial organic pollutants)

      王娟(Wang Juan),德州仪器成都半导体制造有限公司,产品工程师(product engineer)。硕士论文题目: “二元过渡金属纳米催化剂的制备及其性能研究”(Master Thesis:Preparation of binary transition metal nano-catalyst and researches on its catalytic performance)

      苏栎权(Su Yuequan),核工业西南物理研究院(Southwestern Institute of Physics),专任教师(Professional teacher)。硕士论文题目:“钼基材料结构设计优化电化学性能研究”(Research on Molybdenum-based Material Structure Design Optimization Electrochemical Performance)

      梁崇(Liang Chong),荣耀终端有限公司,采购技术及质量工程师,硕士论文题目: “泡沫镍原位生长Ni3S2纳米阵列修MoS2异质结电催化性能研究”(Study on the electrocatalytic performance of N Nanoarray modified M heterojunction by in-situ growth of foam nickel)

      段康佳(Duan Kangjia),苏州铨通医疗科技有限公司(Suzhou OminiMedtech Co. LTD),供应链总监(Supply Chain Director)。硕士论文题目: “磁悬浮精炼辅助钢中夹杂物改性的基础研究”(The basic research on the inclusions modification assisted by the magnetic levitation refining in steel)

      张新越(Zhang Xinyue),南方科技大学材料科学与工程系( department of materials science and engineering, southern university of science and technology),博士在读。硕士论文题目:“新型二维材料的设计与性能优化研究”(Design and performance optimization of two-dimensional materials)

      侯金宏(Hou Jinhong),云南北方奥雷德光电科技股份有限公司(Yunnan Olightek Opto-electronic Technology Co., Ltd.),工程师,硕士论文题目:“动态磁场中一维/二维碳材料的制备及其性能研究”(Preparation of one-dimensional/two-dimensional carbon materials in dynamic magnetic field and study of their performance)

      梁琰景(Liang Yanjing),中国江苏国际经济技术合作集团有限公司(China Jiangsu International Economic and Technical Cooperation Group Co. LTD),集团总部管培生(Group headquarters management trainee)。硕士论文题目:“动态磁通模板法制备一维纳米材料及其性能研究”(Synthesis and properties of one-dimensional nanomaterials by dynamic magnetic flux template method)

      周文婷(Zhou Wenting),通威微电子有限公司(Tongwei Microelectronics Co.,LtD),工程师。硕士论文题目:“碳化硅分离生长硅碳纳米复合结构及应用研究”(Growth of Silicon-Carbon Nanocomposite Structure by Separating Silicon Carbide and its Application Research)

      在校生研究生

      博士研究生

      齐瑞峰(Qi Ruifeng),E-mail:qrf602459322@163.com

      研究方向:二硫化钼纳米结构的制备及组装研究

      研究内容:二硫化钼纳米片,二硫化钼纳米条带,二硫化钼异质结等材料的生长,表征及应用,主要应用方向为锂离子电池及电催化方向

      李琪(Li Qi)E-mail:liqi_2015@163.com

      研究方向:MOF及COF纳流通道中离子传输行为和传输机制的研究及其在能源应用方面的研究

      研究内容:MOF及COF等纳流通道材料的制备及表征;MOF及COF等纳流通道离子传输行为和传输机制的研究;主要应用方向包括盐差发电、盐湖提锂、海水淡化等

      成勇(Cheng Yong),E-mail:chengyong3659@163.com

      研究方向:矿产资源综合利用

      研究内容:尾矿建材化(低碳硅酸盐水泥、辅助胶凝材料、功能性陶粒、新型人造石)

      乔晓花(Qiao Xiaohua)E-mail:2022323070051@stu.scu.edu.cn

      研究方向:硅基气凝胶及其应用

      研究内容:硅基气凝胶在隔热材料中的应用

      硕士研究生

      王肖肖(Wang Xiaoxiao)E-mail:2603660409@ qq.com

      研究方向:金属材料

      研究内容:金属材料的制备及性能研究

      江李当(Jiang Lidang)E-mail:765984881@qq.com

      研究方向:储能AI

      研究内容:利用机器学习技术预测电池状态

      刘俊齐(Liu Junqi)E-mail:liu6660420@163.com

      研究方向:MnB MBene的制备

      研究内容:过渡金属硼化物(TMBs、MAB)的制备、MBenes制备

      秦川(Qin Chuan)E-mail:a15163347501@163.com

      研究方向:地聚合物

      研究内容:致力于探索原料活化程度表达及其与地聚合物力学性能相关性

      王琪少(Wang Qishao),E-mail:1845199942@qq.com

      研究方向:高熵合金粒子用于电解水

      研究内容:用焦耳热快速制备高熵合金纳米粒子,探究其电解水性能

      高峰(Gao Feng)E-mail:3039103997@qq.com

      研究方向:Mxene

      研究内容:Mxene碳化钒(V2AlC)的快速烧结与快速刻蚀

      刘芹(Liu Qin)E-mail:2510375357@qq.com

      研究方向:强化固态烧结

      研究内容:超导材料的快速制备

    Selected Publications (Coauthor journal papers)

    • 2023

    1. Yong Cheng, Ruifeng Qi, Jinhong Hou,Qingsong Huang*, Feasibility study on utilization of copper tailings as raw meal and addition for low carbon Portland cement production, Construction and Building Materials, 2023, 382 131275.(IF=7.4)

    2. Jinhong Hou, Ruifeng Qi, Yanjing Liang, Yong Cheng,Qingsong Huang *, Tailoring carbon nanotubes quickly into graphene nanoribbons along axis-direction via dynamic magnetic flux template,Carbon 2023,208 :338-344.(IF=10.9)

    3. Wenting Zhou, Qiang Liu andQingsong Huang*, Reversing silicon carbide into 1D silicon nanowires and graphene-like structures using a dynamic magnetic flux template, Mater. Horiz., 2023, 10, 1354-1362.

    (IF=13.3)

    4. Guozong Yue, Zhanxiong Li, Yakun Guo, Deshun Huang, Maobing Shuai,Qingsong Huang*. Ultrathin flexible hydrogen getter films with excellent hydrogen uptake and mechanical properties[J]. International Journal of Hydrogen Energy, 2023, 48(83): 32434-32445. (IF=7.2)

    5. Zhanxiong Li, Shunshun Xiong, Lang Shao, Xiaochong Zhao,Qingsong Huang*, Deshun Huang, Guozong Yue. Simple biphenyl derived porous aromatic frameworks with attractive xenon/krypton separation[J]. Chemical Physics Letters, 2023, 820: 140462.(IF=2.8)

    6. Zhang-Hong Zhou, Wei-Hang Li, Zhen Zhang, Xiao-Chong Zhao, Wei Cao,Qing-Song Huang*. Ni optimizes Ir reaction pathway through IrNi alloy synergistic effect to improve overall water splitting efficiency[J]. International Journal of Hydrogen Energy, 2023, 48(23): 8440-8449.(IF=7.2)

    7. Yong Cheng, Jiarui Li, Chuan Qin,Qingsong Huang*. Template-free route to fabricate extra-lightweight ceramsite with a single large pore structure[J]. Ceramics International, 2023, 49(22): 36446-36457.(IF=5.2)

    2022

    8. Zhang-Hong Zhou, Wei-Hang Li, Zhen Zhang,Qingsong Huang*, Xiao-Chong Zhao, * and Wei Cao*Ni-O4 as Active Sites for Efficient Oxygen Evolution Reaction with Electronic Metal-Support Interactions, ACS Appl. Mater. Interfaces 2022, 14, 47542−47548.(IF=9.5)

    9. Yanjing Liang, Zhiqing Zhu, Qi Li,Qingsong Huang*Developing a dynamic magnetic flux template to guide 1D nanomaterial growth, Chem. Commun., 2022, 58, 10245.(IF=4.9)

    10. Ruilin He , Pan Yang,Qingsong Huang,*, Lijun Yang *Electrospunnano-Ru doped carbon nanofibers for efficient alkaline hydrogen evolution reaction, Chemical Physics Letters, 2022, 809, 140147.(IF=2.8)

    11. Shuna Hu, Fang Liu, andQingsong Huang*Upgrading a Supercapacitor by Particalizing Each Ultrathin Nanosheet into a Grain-Bearing Jigsaw-Like Layer,Energy Fuels 2022, 36, 7096−7103.(IF=5.3)

    12. Zhiqing Zhu,Qingsong Huang*In-plane structured Fe3O4/FeS composite loaded on reduced graphene oxide as a stabilized anode material for lithium-ion batteries,Applied Physics A,2022, 128, 563.(IF=2.7)

    13. Zhiqing Zhu ,Qingsong Huang*,Controllable fabrication of nanoplate and nanowire determined by the surface/interface energy on high-temperature liquid metal, VACUUM,2022,200, 111029.(IF=4.0)

    2021

    14. Zhang, Xinyue, andQingsong Huang*. "Toward Planar Iodine 2D Crystal Materials."ACS omega 6.33 (2021): 21235-21240.(IF=4.1)

    15. Juan Wang, Li-jun Yang, Xiao-chong Zhao, Pan Yang, Wei Cao, andQingsong Huang*, "Highly efficient nanocatalyst Ni1Co9@ graphene for hydrolytic dehydrogenation of sodium borohydride." International Journal of Minerals, Metallurgy and Materials 28 (2021): 1976-1982.(IF=4.8)

    16. Yue-quan Su, Xin-yue Zhang, Li-meng Liu, Yi-ting Zhao, Fang Liu*, andQingsong Huang*, "Optimization of battery life and capacity by setting dense mesopores on the surface of nanosheets used as electrode."Int. J. Miner. Metall. Mater. 2021,28, 142.(IF=4.8)

    17. Ruilin He, Yingnan Yang, Pan Yang, Xiaochong Zhao, Jing Zhu, Ruizhu Yang,Qingsong Huang *, "Electrospun nano-Ir anchored mesoporous carbon nanofibers for hydrogen evolution reaction." Chemical Physics 554 (2022): 111403.(IF=2.3)

    18. Gong, Qilin, andQingsong Huang *. "Construction of moiré superlattice on the MoO2(010) surfaces."Physica B: Condensed Matter 624 (2022): 413429.(IF=2.8)

    2020

    19. Chong Liang, Wei Cao, Linsen Zhou*, Pan Yang, Xiaochong Zhao, Pengxiang Zhao, Ruizhi Qiu, Lijun Yang*,Qing-Song Huang*,and Didier Astruc*,Design, Synthesis and High HER Performances of 3D Ni/MoSulfide on Ni Foam,ChemCatChem , 2020, 12, 1647-1652.(IF=4.495)(媒体点评)

    链接:https://news.tianyancha.com/ll_3wjqfnsssp.html

    https://www.sohu.com/a/375656785_771637

    20. Chong Chen*, Fumin Li, Liangxin Zhu, Zhitao Shen, Yujuan Weng , Qiang Lou , Furui Tan , Gentian Yue ,Qingsong Huang* , Mingtai Wang*, Efficient and stable perovskite solar cells thanks to dual functions of oleyl amine-coated PbSO4(PbO)4quantum dots: Defect passivation and moisture/oxygen blocking, Nano Energy , 2020, 68 , 104313.(IF=15.548)

    21.Xinyue Zhang,Yu Liu,Qingsong Huang*,Stable halogen 2D materials: the case of iodine and astatine, Journal of Physics Condensed Matter, 2020, DOI:10.1088/1361-648X/ab87cf.(IF=2.711)

    22. Juan Wang, Li-jun Yang, Xiao-chong Zhao, Pan Yang, Wei Cao, andQing-song Huang*,Highly Efficient Nanocatalyst Ni1Co9@graphene for Hydrolytic Dehydrogenation of Sodium Borohydride, Int. J. Miner. Metall. Mater.https://doi.org/10.1007/s12613-020-2090-4(IF=1.221)

    23. Yue-quan Su, Xin-yue Zhang, Li-meng Liu, Yi-ting Zhao, Fang Liu*, andQing-song Huang*, Optimization of battery life and capacity by setting dense mesopores on the surface of nanosheets towards electrode, Int. J. Miner. Metall. Mater.https://doi.org/10.1007/s12613-020-2088-y.(IF=1.221)

    2019

    24. Liangxin Zhu, Chong Chen*, Fumin Li, Zhitao Shen, Yujuan Weng,Qingsong Huang*, and Mingtai Wang*,Enhancing efficient and stability of perovskite solar cells by incorporating CdS and Cd(SCN2H4)2Cl2into CH3NH3PbI3active layer,J. Mater. Chem. A, 2019,7, 1124-1137.(IF=10.733)

    25. Xinyue Zhang, Qingsong Huang*, Engineering difference of band structure between mirror symmetrical adsorption and antisymmetrical adsorption of the identical group on a graphene sheet,The European Physical Journal Applied Physics,2019,85(3):30101.(IF=0.8)

    26. Chaozhong Wu, Ruifeng Qi, Xiong Zhang, Qiang Liu,Qingsong Huang*, Quick mass-production of MAX (Ti2AlC) book with pages separated by stacking faults benefiting removal of “A” layer, Chemical Communications, 2019, 2019, 55, 7522—7525.(IF=6.290)

    2018

    27. Qiang Liu, Ruifeng Qi, Shuang Song, Zhihui Yan, andQingsong Huang*,Controllable conversion of liquid silicon from high-density to low-density towards amorphous silicon nanospheres on a wafer-scale. Chemical Communications, 2018, 54, 12694-12697.(IF=6.290)(封底论文)

    28. Teng Wang, Shuang Song, Qiang Liu, Wei Chu, Luming Li,Qingsong Huang*, and Chengfa Jiang*,Assembling Carbon into Anatase TiO2as Interstitial Atoms Towards Photo-Catalytic Activity. European Journal of Inorganic Chemistry, 2018,4370–4374.(IF=2.507)

    2017

    29. Ruifeng Qi, shanling Wang, Minxiang Wang, Wentao Liu, Zhihui Yan, Xiaofeng Bi, andQingsong Huang*, Towards well-defined MoS2 nanoribbons on a large scale,Chem. Comm.,2017, 53, 9757-9760.(IF=6.290)

    30. Min Wei,Qingsong Huang, Yanping Zhou, Zhu Peng, Wei Chu*. Ultrathin nanosheets of cobalt-nickel hydroxides hetero-structure via electrodeposition and precursor adjustment with excellent performance for supercapacitor, Journal of Energy Chemistry,2017, 27, 591-599.(IF= 3.886)

    31. Zhanglong Guo,Qingsong Huang, Shizhong Luo, Wei Chu*, Atmospheric Discharge Plasma Enhanced Preparation of Pd/TiO2Catalysts for Acetylene Selective Hydrogenation,Topics in Catalysis, 2017, 60, 1009.(IF=2.486)

    32 Xiaoping Gao, Yanan Zhou, Fangli Jing, Jingjie Luo,Qingsong Huang, Wei Chu*, Layered Double Hydroxides Derived ZnO-Al2O3Supported Pd-Ag Catalysts for Selective Hydrogenation of Acetylene, Chin. J. Chem., 2017, 35, 1009-1015.(IF=1.852)

    33. Le Li, Jian Zheng, Yuefeng Liu, Wei Wang,Qingsong Huang, Wei Chu*, Impacts of SiC Carrier and Nickel Precursor of NiLa/support Catalysts for CO2Selective Hydrogenation to Synthetic Natural Gas (SNG),Chemistryselect, 2017,2(13), 3750-3757.(IF=2.1)

    2016

    34. Yu Liu*, Lianlian Chen*, Donovan Hilliard,Qingsong Huang, Fang Liu, Mao Wang, Roman Böttger, René Hübner, Alpha T. N'Diaye, Elke Arenholz, Viton Heera, Wolfgang Skorupa, Shengqiang Zhou, Controllable growth of vertically aligned graphene on C-face SiC,Scientific Reports, 2016, 6, 34814 .(IF=4.259)

    2015

    35. Xiaofeng Bi, Wentao Liu,Qingsong Huang*, and Jinghua Pang,Controllable Magnetism of CoO Nanoparticles Modified by the Reduced Graphene Oxide,J. Phys. Chem. C, 2015, 119, 20755. (IF=4.536)

    36. Shujie Wang, Xizhi Yuan, Xiaofeng Bi, Xiaomei Wang andQingsong Huang*,Observation of the retarded transportation of a photogenerated hole on epitaxial graphene,Phys.Chem.Chem.Phys., 2015, 17, 23711.(IF=4.123, Recommended by Editor as Back cover)

    37. Kangjia Duan, Ling Zhang, Xizhi Yuan, Shan-shan Han, Yu Liu, andQingsong Huang*, Effect of an upward magnetic field on nanosized sulfide precipitation in ultra-low carbon steel,International Journal of Minerals, Metallurgy, and Materials, 2015, 22, 714.(IF=0.943)

    2014

    38. Y. P. Jia, *L. W. Guo, W. Lu, Y. Guo, J. J. Lin, K. X. Zhu, L. L. Chen,Q. S. Huang, J. Huang, Z. L. Zhi, and *X. L. Chen,Fabrication and characterization of graphene derived from SiC,Sci. Chin. Phys., 2014, 57(5), 1004.

    39. S. H. Yoo, J. M. Kum,Q. S. Huang, and * S. O. Cho,Direct Fabrication of Hierarchical Porous Carbonaceous Microparticles by Electron-Beam Irradiation and Post-Annealing of Polystyrene Colloidal Crystals,Macro. Mater. Eng., 2014, 299(4), 447.(IF=2.863)

    2013

    40. Qingsong Huang, J. J. Kim, G. Ali, and *S. O. Cho. Width-tunable graphene nanoribbons on a SiC substrate with a controlled step height,Adv. Mater.,2013, 25, 1144.(IF=25.809)

    41. Qingsong Huang*, D. L. Chen, Y. Z. Ma, and J. Liu.Nucleation of epitaxial graphene on SiC substrate by thermal annealing and chemical vapor deposition. Applied Physics A, 2013, 112(2), 349.(IF=1.455)

    42. Y. Liu, *G. Wang,Qingsong Huang, L. W. Guo, and *X. L. Chen, Comment on “Structural and Electronic Properties of T Graphene: A Two-Dimensional Carbon Allotrope with Tetrarings” Reply,Phys. Rev. Lett., 2013, 110(2), 029601.(IF=8.462)

    43. Y. Liu, *G. Wang,Qingsong Huang, L. W. Guo, and *X. L. Chen, Comment on “Structural and Electronic Properties of T Graphene: A Two-Dimensional Carbon Allotrope with Tetrarings” Reply,Phys. Rev. Lett.,2013,110(2), 029603.(IF=8.462)

    2012

    44. Y. Liu, *G. Wang,Qingsong Huang, L. W. Guo, and *X. L. Chen,Structural and Electronic Properties of T Graphene: A Two-Dimensional Carbon Allotrope with Tetrarings,Phys. Rev. Lett., 2012, 108, 225505.(IF=8.462)

    45. D. L. Chen, S. H. Yoo,Qingsong Huang, G. Ali, and *S. O. Cho. Sonochemical Synthesis of Ag/AgCl Nanocubes and Their Efficient Visible-Light-Driven Photocatalytic Performance,Chem. A. Eu. J., 2012, 18, 5192.(IF=5.317)

    2011

    46. Q. S. Huang, G. Wang , L. W. Guo , Y. P. Jia , J. J. Lin , K. Li, W. J. Wang, and *X. L. Chen. Approaching the intrinsic electron field-emission of a graphene film consisting of quasi-freestanding graphene strips.Small,2011, 7, 450.(IF= 10.856)

    47. Q. S. Huang, *X. L. Chen, J. J. Lin, K. Li, Y. P. Jia, J. Liu, L. W. Guo, W. J. Wang, and G. Wang. Preparation of Quasi-Free Standing Graphene with a Super Large Interlayer Distance by Methane Intercalation. J. Phys. Chem. C, 2011, 115, 20538.(IF=4.536)

    48. J. J. Lin, L. W. Guo,Q. S. Huang, Y. P. Jia, K. Li, X. F. Lai, and *X. L. Chen. Anharmonic phonon effects in Raman spectra of unsupported vertical graphene sheets.Phys. Rev. B, 2011, 83, 125430.(IF=3.836)

    49. J. Liu, Z. P. Guo, W. J. Wang,Q. S. Huang, K. Zhu and *X. L. Chen. Heterogeneous ZnS hollow urchin-like hierarchical nanostructures and their structure-enhanced photocatalytic properties,Nanoscale, 2011, 3, 1470.(IF=7.367)

    50. J. Liu, X. L. Chen, W. J. Wang, Y. Liu,Q. S. Huang, and *Z. P.Guo.Self-assembly of [10-10] grown ZnO nanowhiskers with exposed reactive (0001) facets on hollow spheres and their enhanced gas sensitivity. CrystEngComm., 2011, 13, 3425-3431.(IF=3.849)

    2010

    51. Q. S. Huang, *X. L. Chen, W. J. Wang, G. Wang, W. Y. Wang, J. Liu, and L. W. Guo. Large-scale formation of epitaxial graphene on 4H-SiC (0001) by pulsed electron irradiation,Chem. Comm., 2010, 46, 4917.(IF=6.319)

    52. Q. S. Huang, L. W. Guo. W. J. Wang, G. Wang, W. Y. Wang, Y. P. Jia, J. J. Lin, K. Li, and *X. L. Chen. Raman spectrum of epitaxial graphene on SiC (0001) by pulsed electron irradiation.Chin. Phys. Lett., 2010, 27, 046803.(IF=0.800)

    53. R. Yang,Q. S. Huang, *G. Y. Zhang, X. L. Chen, Hongjun Gao, Substrate Doping Effects on Raman Spectrum of Epitaxial Graphene on SiC.J. Appl. Phys., 2010, 107, 034105.(IF=2.068)

    Before 2010

    54. J. Liu, *X. L. Chen, W. Wang,Q. S. Huang, and K. Zhu,Large Scale Synthesis of Porous ZnO Hollow Structures with Tunable Diameters and Shell Thicknesses,Mater. Lett., 2009, 63, 2221.(IF=2.572)

    55. J. Liu, *X. L. Chen, W. Wang, B. Song, andQ. S. Huang, Secondary Facet-selective Nucleation and Growth: Highly Oriented Straight SnO2Nanowire Arrays on Primary micro-rods.Cryst. Growth & Des.,2009, 9, 1757.(IF=4.425)

    56.黄青松,李龙飞,杨王玥,孙祖庆,共析钢过冷奥氏体动态相变过程中先共析铁素体的生成,材料热处理学报,2008, 29, 42.(EI)

    57.黄青松,李龙飞,杨王玥,孙祖庆,共析钢的过冷奥氏体相变和组织超细化,金属学报,2007, 43, 724.(IF=0.704)

    Patents ( Recent years)

    1.黄青松,王冠翊,王良瑞,唐佳琪,一种厘米量级单晶三氧化钼纳米带的制备方法,申请号201611071670.8.

    2.黄青松,段康佳,袁熙志,磁悬浮辅助硅及其合金对钢中氧化铝夹杂改性的方法,授权,2016.8.17,201410727013.9.

    3.黄青松,蒲旺旺,段康佳,一种纳米颗粒弥散强化钢的冶炼方法,授权,2016.6.22,201410473694.0

    4.黄青松,毕晓峰,齐瑞峰,一种制备超级电容器的材料及其制备方法,ZL 201710156409.6

    5.黄青松,齐瑞峰,毕晓峰,一种可控宏量制备二硫化钼纳米条带的方法,ZL 201710014734.9

    6.黄青松,刘文韬等,一种层状二维材料MXene的制备方法及其应用,申请号:201710667543.2

    7.黄青松,刘强等,一种大规模无定形硅颗粒的制备方法,申请号:201810991687.8

    8.黄青松,刘强等,一种大规模晶体硅颗粒的制备方法,申请号:201811070839.7

    9.黄青松,张一波,黄辉,一种增强富勒烯荧光性能的方法-,申请号:201810493532.1

    10.黄青松,齐瑞峰,一种二硫化钼纳米片的制备方法,ZL 202210073853.2

    Selected conference presentations and posters

    1. 123+学术年会(邀请报告)

    黄青松,石墨烯纳米阵列的可控外延生长及在场发射中的应用,中国工程物理研究院,四川,成都,中国,Jan. 21-22, 2019

    2. 2018纳米年会(杭州, POSTER

    齐瑞峰,严志辉,黄青松.宏量制备铁磁性二硫化钼纳米条带,会议名称及地点:中国化学会第31届学术年会,浙江杭州,报告人:报告类型:分会墙报、报告时间:2018年5月5日-2018年5月8日

    3.第十三届全国X-射线衍射学术大会暨国际衍射数据中心(ICDD)国际会议(Oral Report

    Qingsong Huang,Assembling Carbon into Anatase TiO2 as Interstitial Atoms towards Photo-Catalytic Activity,第十三届全国X-射线衍射学术大会暨国际衍射数据中心(ICDD)国际会议,甘肃兰州July 28-Aug. 1, 2018.

    4.中国晶体学会暨ICDD国际晶体衍射会议(Poster

    Qingsong Huang*, Zhihui Yan, Ruifeng Qi, Wentao Liu, Xiaofeng Bi, Shujie Wang, Optimizing properties of the epitaxial graphene on SiC substrate via reducing its topological defects,ICCD X-ray diffraction conference,Mianyang, Sichuan,2015.10




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