澳门新莆京7906app官网|中国|有限公司

孙宏滨


现任东北大学澳门新莆京7906app官网化学系教授、博士生导师,1977年生,2006年毕业于清华大学并获得博士学位。研究领域涉猎广泛,包括催化化学、电化学储能、绿色化学、精细化学品合成工艺、复合纳米材料、重金属吸附、流动化学、以及有机水性电池的研究。主持承担国家自然科学基金面上项目、青年项目各一项,中央高校基本科研基金二项,辽宁省科技厅基金等省部级项目1项,横向项目若干。在Nature Communications, Adv. Funct. Mater., Adv. Sci., Chem. Eng. J., J. Mater. Chem. A., J. Catal., Green Chem., Nano Res.等国内外知名期刊发表SCI论文70余篇,授权发明专利6项,谷歌学术的H指数18

个人简历:

19962000清华大学化学系化学专业获理学学士学位;

2000~2006,清华大学化学系,获理学博士学位;

20062007在保诺(北京)科技公司任职“高级有机合成研究员”,从事新药研发工作;

2007年受聘为东北大学化学系副教授、硕士导师;[1] 

2019年受聘为博士生导师;

2018~2019,美国中佛罗里达大学,访问学者;

2020年受聘为特聘研究员,在申请项目、对外交流等方面享正高待遇;

2021年晋升教授。

主讲课程

本科生课程:物理化学,应用催化;现在《物理化学(双语)》课程负责人;在核心期刊发表过教改论文一篇——《大学生个体发展多元化背景下“差别化”考试的改革与实践》,化学教育,201738(2), 8-12

主讲研究生课程:催化化学

主讲金属所研究生课程:材料科学的化学原理(物理化学部分)

科研工作

课题组在催化方面的研究最为深入,开发了多种催化剂用于硝基、腈类化合物的还原反应以及级联反应。其中世界级领先的工作有两个,一个是将肼致硝基还原的纯氧化铁催化剂推进到了目前最高的效率;一个是选择性腈还原,可以精确控制反应的选择性,且催化剂的贵金属含量可以降至ppm级,这是第一个利用调控异相催化剂控制腈选择性还原的报道,2018年发表在Cell的唯一多科性子刊iScience上。此外,我们2021年发表在Nature Communications上的一篇工作,报道了用原子级分散的钯催化剂调控腈氢化反应。根据ElsevierScopus检索,我在Nitrobenzene Hydrogenation领域是2016-2020年度的全球top 2 author

在电催化方面,我们研究了电解水制氢的催化过程,包括HEROER反应以及相应的解耦过程,催化剂的构建多基于小分子有机物衍生的碳基复合材料,这一类材料也被应用于锂离子电池、催化氢化反应等。

在重金属吸附研究方面,采取吸附接续资源化利用的方案,开创了水中污染物处理的新模式。深入研究了锑的吸附及后续利用,回收的吸附剂可以加工成为硝基还原催化剂、酯交换反应催化剂、聚酯反应催化剂,还可以发挥锑资源在储能方面的应用,在锂、钠离子电池的负极、超级电容器等方面得到应用,2018~2021年以来发表了一系列高水平文章,目前在水性锑离子电池方面进行开拓。

当前课题组的一个新开展方向,是以有机化合物作为电池材料,构建安全的水系电池。有机化合物由于其元素储备丰富,结构调控余地大,易于大规模生产,特别是回收处理方便等特性,在储能领域有极大的发展空间。基于我课题组在有机合成、催化合成方法学以及电池研究的积累,从2020年开始进入这一领域,现在已经取得的初步的进展,后续可期。


项目、论文和专利的情况。

主持的纵向科研项目:

  • 国家自然科学基金项目:21872020 铁纳米氧化物应用于选择性催化氢化及氢转移反应的研究

  • 国家自然科学基金青年项目:21003018 BiFe无机盐催化的C-N键生成反应在杂环合成中的应用研究

  • 中央高校基本科研业务费:N090405007无机盐催化杂环化合物的合成反应研究

  • 中央高校基本科研业务费:N130405005 连续流微反应器在催化杂环化合物合成反应中的应用研究

  • 辽宁省工业企业科技特派员项目:苯氧乙酸系列化合物环保生产工艺的开发

2015年以来的发表的论文:其中通讯作者53篇,中科院一区论文20篇。

  1. Zhibo Liu, Fei Huang, Mi Peng, Yunlei Chen, Xiangbin Cai, Linlin Wang, Zenan Hu, Xiaodong Wen, Ning Wang, Dequan Xiao, Hong Jiang, Hong-bin Sun*,  Hongyang Liu* and Ding Ma*. Tuning the selectivity of catalytic nitriles 1 hydrogenation by structure regulation in atomically dispersed Pd catalysts. Nature Communications, 2021,12, 6194

  2. Jianghua Zhang, Yongjian Ai, Jiajing Wu, Daile Zhang, Yun Wang, Zhongmin Feng, Hong-Bin Sun*, Qionglin Liang, Ting Sun*, and Yang Yang*. Nickel-catalyzed synthesis of three-dimensional edge-curled graphene for high-performance lithium-ion batteries. Advanced Functional Materials2020. 30, 1904645.

  3. Lei Liu L, Yulong Liu*, Yongjian Ai,Jifan Li, Junjie Zhou, Zhibo Fan, Hongjie Bao, Ruihang Jiang, Zenan Hu, Qionglin Liang*, Hong-Bin Sun*. Pd-CuFe catalyst for transfer hydrogenation of nitriles: controllable selectivity to primary amines and secondary amines. iScience, 2018, 8, 61-73.

  4. Yongjian Ai, Lei Liu, Cheng Zhang, Li Qi, Mengqi He, Zhe Liang, Hong-Bin Sun*, Guoan Luo, Qionglin Liang*. Amorphous flowerlike goethite FeOOH hierarchical supraparticles: superior capability for catalytic hydrogenation of nitroaromatics in water.ACS Applied Materials & Interfaces, 2018, 10, 32180-32191.

  5. Yongjian Ai , Ze-Nan Hu, Xiaoping Liang, Hong-bin Sun, Hongbo Xin, and Qionglin Liang. Recent Advances in Nanozymes: From Matters to Bioapplications, Advanced Functional Materials. 2021, 2110432

  6. Yiming Wang, Haimeng Tian, Hong Li, Xinchen Deng, Qiao Zhang, Yongjian Ai, Zejun Sun, Yu Wang, Lei Liu, Ze-Nan Hu, Xinyue Zhang, Rongxiu Guo, Wenjuan Xu, Qionglin Liang and Hong-bin Sun*Encapsulating Electron-Rich Pd-NPs with Lewis Acidic MOF: Reconciling the Electron-Preference Conflict of the Catalyst for Cascade Condensation via Nitro Reduction. ACS Applied Materials & Interfaces, 2022, online

  7. Yiming Wang; Xu Zhu; Xinyue Zhang; Jianwei Zheng; Hong Li; Nianyi Xie; Ying Guo; Hong-bin Sun*; Gang Zhang*. Direct Sulfhydryl Ligand Derived UiO-66 for the Removal of Aqueous Mercury and Subsequential Application as a Catalyst for Transfervinylation. Dalton Transactions2022, accepted

  8. Zejun Sun, Wenjuan Xu, Liutao Guo, Qiang Han, Jianyi Gao, Jiaping Wang, Yanru Feng, Chengrui Li, Qionglin Liang*, Hong-bin Sun*, Yang Yang* Organophosphine ligand derived sandwich-structural electrocatalyst for oxygen evolution reaction. Journal of Energy Chemistry 2022, 74-83

  9. Kelong Ding, Ze-Nan Hu, Wenhui Zhang, Jiaxing Liang, Yiming Wang, Hong Li, Zejun Sun, Qionglin Liang, and Hong-bin Sun*. Bimetallic RhIn/ZIF-8 for the catalyic chemoselective hydrogenation of nitrostyrene: Exploration of natural selectivity of hydrogen sources and enhancing intrinsic selectivity, Microporous and Mesoporous Materials, 2022, 332, 111693.

  10. Hong Li , Yiming Wang, Rongxiu Guo, Jianwei Zheng, Zejun Sun, Xinyue Zhang, Ying Guo, Hongna Jia, Qionglin Liang, and Hong-bin Sun*. 'Encapsulating UiO-66-NH2@Pt with defective PCN-222 as an active armor to fabricate a sandwich-type nanocatalyst for the tandem synthesis via hydrogenation of nitroarenes, Journal of Catalysis,2022, 407, 253-264.

  11. Jiaxing Liang, Ze-Nan Hu, Xinyue Zhang, Yongjian Ai, Yao Wang, Kelong Ding, Jianyi Gao, Jiaping Wang, Dun Niu, and Hong-bin Sun*. Recovery of antimony using biological waste and stepwise resourcization as catalysts for both polyesterification and transfer hydrogenation', Colloids and Surfaces a-Physicochemical and Engineering Aspects,2022, 635, DOI: 10.1016/j.colsurfa.2021.128119

  12. Liping Xie, Hedele Zeng, Jiaxin Zhu, Zelin Zhang, Hong-bin Sun, Wen Xia, and Yanan Du. State of the art in flexible SERS sensors toward label-free and onsite detection: from design to applications', Nano Research.2022, DOI: 10.1007/s12274-021-4017-4

  13. Xiaojiao Li, Hong-bin Sun*, Xudong Sun, Polysulfone grafted with anthraquinone-hydroanthraquinone redox as a flexible membrane electrode for aqueous batteries, Polymer, 2021, 234, 124245

  14. Rongxiu Guo, Guangqi He, Xinyu Chen, Xinyue Zhang, Ze-nan Hu, Xiaodong Li*, Dun Niu*, and Hong-bin Sun*. Ultrathin Modified Silica "Skin" for the Transfer Hydrogenation Catalyst: Improving Selectivity by Adjusting Surface Wettability. Advanced Materials Interfaces2021, 8. 2100013

  15. Ying Guo, Xinyue Zhang, Nianyi Xie, Rongxiu Guo, Yao Wang, Zejun Sun, Hong Li, HongnaJia, Dun Niu*, Hong-bin Sun*, Investigation of antimony adsorption on a zirconium-porphyrin-based metal-organic framework. Dalton Transactions2021, 13932

  16. Yang Li, Yu-Nong Li, Jian-Wei Zheng, Xiao-Yun Dong, Rong-Xiu Guo, Yi-Ming Wang, Ze-Nan Hu, Yongjian Ai, Qionglin Liang, Hong-Bin Sun*, Metal-Organic Framework-Encapsulated CoCu Nanoparticles for the Selective Transfer Hydrogenation of Nitrobenzaldehydes: Engineering Active Armor by the Half-Way Injection Method. Chemistry-a European Journal2021, 27, 1080-1087

  17. Wenjuan Xu, Jinfa Chang, Yinggang Cheng, Hongqi Liu, Jifan Li, Yongjian Ai, Zenan Hu, Xinyue Zhang, Yiming Wang, Qionglin Liang, Yang Yang*, Hongbin Sun*, A multi-step induced strategy to fabricate core-shell Pt-Ni alloy as symmetric electrocatalysts for overall water splitting. Nano Research.2021, 15, 965-971

  18. Xinyue Zhang, Ying Guo,` Nianyi Xie, Rongxiu Guo, Yao Wang, Ze-Nan Hu, Wenjuan Xu, Yongjian Ai, Jianyi Gao, Jiaping Wang, Qionglin Liang, Dun Niu*, Hong-bin Sun*, Yang Qi*, Ternary NiFeMnOx compounds for adsorption of antimony and subsequent application in energy storage to avoid secondary pollution. Separation and Purification Technology.2021, 276, 119237

  19. Xinyue Zhang, Yao Wang, Na Ju, Yongjian Ai, Yangyang Liu, Jiaxing Liang, Ze-Nan Hu, Wenjuan Xu, Wei Zhang, Yang Qi, Dun Niu*, Qionglin Liang, Hong-bin Sun*, Yang Yang*, Ultimate Resourcization of Waste: Crab Shell-Derived Biochar for Antimony Removal and Sequential Utilization as an Anode for a Li-Ion Battery. ACS Sustainable Chemistry & Engineering.2021, 9, 8813-8823.

  20. Xinyue Zhang, Nianyi Xie, Ying Guo, Dun Niu, Hong-bin Sun*, and Yang Yang*. Insights into adsorptive removal of antimony contaminants: Functional materials, evaluation and prospective. Journal of Hazardous. Materials.2021, 418. 126345

  21. Jianwei Zheng, Liying Zhang, Yang Li, Hongbin Sun*, Gang Zhang*, and Qi Sun. Novel core-shell nanocomposite as an effective heterogeneous catalyst for the synthesis of benzimidazoles. Nanotechnology2021, 32.265603

  22. Ze-Nan Hu, Jiaxing Liang, Kelong Ding, Yongjian Ai, Qionglin Liang*, Hong-bin Sun*. Insight into the Selectivity of Nano-Catalytic Nitroarenes Reduction over Other Active Groups by Exploring Hydrogen Sources and Metal Components. Applied Catalysis A. General.2021, 626, 118339

  23. Rongxiu Guo,Xinyue Zhang, Ze-Nan Hu, Hong Li,Jianyi Gao, Jiaping Wang, Qionglin Liang, Xiaodong Li,* Dun Niu,* and Hong-bin Sun* A Hollow in Hollow Nanoreactor of H-PtCu@SiO2 for the Selective Transfer Hydrogenation. Chemical Engineering Journal2021, 425, 131417

  24. Nianyi Xie, Xinyue Zhang, Ying Guo, Rongxiu Guo, Yao Wang, Zejun Sun, Hong Li, Hongna Jia, Tong Jiang, Jianyi Gao, Jiaping Wang, Dun Niu*, Hong-bin Sun*.Hollow Mn/Co-LDH Produced by in-situ Etching-Growth of MOF: Nanoreactant for Steady Chemical Immobilization of Antimony. Journal of the Taiwan Institute of Chemical Engineers. 2021,127, 197-207

  25. Yongjian Ai, Lei Liu, Zenan Hu, JiFan Li, Shucheng Ren, JiaJling Wu, Yang Long, Hong-Bin Sun*, Qionglin Liang*. In-situ construction of graphite-supported magnetic carbocatalysts from a metallo-supramolecular polymer: high performance for catalytic transfer hydrogenation. ChemNanoMat2020, 6, 629-638.

  26. Shucheng Ren, Yongjian Ai, Xinyue Zhang; Man Ruan, Ze-nan Hu, Lei Liu, Jifan Li, Hong-Bin Sun*, Qionglin Liang*. Recycling antimony(III) by magnetic carbon nanospheres: turning waste to recoverable catalytic for synthesis of esters and triazoles. ACS Sustainable Chemistry & Engineering, 2020, 8, 469-477.

  27. JiFan Li, Lei Liu, Yongjian Ai, Yang Liu, Hong-Bin Sun*, Qionglin Liang*.Self-polymerized dopamine-decorated Au NPs and coordinated with Fe-MOF as a dual binding sites and dual signal-amplifying electrochemical aptasensor for the detection of CEA. ACS Applied Materials & Interfaces2020,12, 5500-5510.

  28. Jiajing Wu, Jianghua Zhang,Yongjian Ai, Jifan Li, Xinyue Zhang, Ze-Nan Hu, He Wang, Hong-Bin Sun*, Qionglin Liang*. Cobalt-promoted fabrication of 3D carbon with nano tube-sheet mutual supported structure: scalable preparation of high performance anode material for Li-Ion battery. Nanotechnology, 2020, 31, 085402.

  29. Rongxiu Guo, GuangQi He, Lei Liu, Yongjian Ai, Ze-nan Hu, Xinyue Zhang, Haimeng Tian, Hong-Bin Sun*, Dun Niu, Qionglin Liang. Selective synthesis of symmetrical secondary amines from nitriles with a Pt‐CuFe/Fe3O4 catalyst and ammonia borane as hydrogen donor, ChemPlusChem 2020, 10.1002/cplu.202000028.

  30. Yongjian Ai, Zenan Hu, Lei Liu, Junjie Zhou, Yang Long, Jifan Li, Mingyu Ding, Hong-Bin Sun*, Qionglin Liang*. Magnetically hollow Pt nanocages with ultrathin walls as a highly integrated nanoreactor for catalytic transfer hydrogenation reaction. Advanced Science, 2019, 6, 1802132-1802142.

  31. Lei Liu, Jifan Li, Yongjian Ai, Yuhong Liu*, Jialiang Xiong, Hong-Bin Sun*, Qionglin Liang*. A ppm level Rh-based composite as an ecofriendly catalyst for transfer hydrogenation of nitriles: triple guarantee of selectivity for primary amines.Green Chemistry, 2019, 21, 1390-1395.

  32. Zenan Hu, Yongjian Ai, Lei Liu, Junjie Zhou, Gang Zhang, Hongqi Liu, Xiangyu Liu, Zhibo Liu, Jianshe Hu, Hong-bin Sun*, Qionglin Liang*. Hydroxyl assisted rhodium catalyst supported on goethite nanoflower for chemoselective catalytic transfer hydrogenation of fully converted nitrostyrenes. Advanced Synthesis Catalysis. 2019, 361, 3146–3154.

  33. Ze-Nan Hu, Yongjian Ai, Lei Liu, Yixin Chen, Xiang Song, Jifan Li, Jiaheng Yu, Haimeng Tian, Rongxiu Guo, Hong-Bin Sun*, Jianshe Hu*, Qionglin Liang. A predictable catalyst model for highly active and selective catalysis of hydrogenation of nitroarenes: comprehension of various precious metal nanoparticles. ChemistrySelect 2019, 4, 8960–8967.

  34. Haimeng Tian, Junjie Zhou, Yunong Li*, Yiming Wang, Lei Liu, Yongjian Ai, Ze-Nan Hu, Jifan Li, Rongxiu Guo, Zhibo Liu, Hong-Bin Sun*, Qionglin Liang. Rh catalyzed selective hydrogenation of nitroarenes under mild conditions: understanding the functional groups attached to the nanoparticles. ChemCatChem2019, 11, 5543–5552.

  35. Yongjian Ai, Mengqi He, Feng Zhang, Yang Long, Yunzheng Li, Qiang Han, Mingyu Ding, Hong-Bin Sun*, Qionglin Liang*. Metallo-supramolecular polymer engineered porous carbon framework encapsulated stable ultra-small nanoparticles: a general approach to construct highly dispersed catalysts. Journal of Materials Chemistry A, 2018, 6, 16680-16689.

  36. Yongjian Ai, Zenan Hu, Zixing Shao, Li Qi, Lei Liu, Junjie Zhou, Hong-Bin Sun*, Qionglin Liang*. Egg-like magnetically immobilized nanospheres: a long-lived catalyst model for the hydrogen transfer reaction in a continuous-flow reactor.Nano Research,2018, 11, 287–299.

  37. Yongjian Ai, Mengqi He, Qianrui Lv, Lei Liu,Mingyu Ding, Hong-Bin Sun*, Qionglin Liang*. 3D porous carbon framework stabilized ultra-uniform nano γ-Fe2O3: a useful catalyst system. Chemistry-An Asian Journal, 2018, 13, 89–98.

  38. Zenan Hu, Junjie Zhou, Yongjian Ai, Lei Liu, Li Qi, Ruihang Jiang, Hongjie Bao, Jingting Wang, Hong-Bin Sun*, Qionglin Liang*. Two dimensional Rh/Fe3O4/g-C3N4-N enabled hydrazine mediated catalytic transfer hydrogenation of nitroaromatics: a predictable catalyst model with adjoining Rh. Journal of Catalysis, 2018, 368, 20-30.

  39. Hongjie Bao, Yunong Li, Lie Liu, Yongjian Ai, Junjie Zhou, Li Qi, Ruihang Jiang, Zenan Hu, Jingting Wang, Hong-Bin Sun*, Qionglin Liang*. Ultrafine FeCu alloy nanoparticles magnetically immobilized in amine-rich silica spheres for dehalogenation -proof hydrogenation of nitroarenes. Chemistry-A European Journal, 2018, 24, 14418-1442.

  40. Jingting Wang, Yixin Chen, Zhiqiang Zhang, Yongjian Ai, Lei Liu, Li Qi, Junjie Zhou, Hong-Bin Sun*, Dun Niu*, Qionglin Liang*. Microwell confined iron oxide nanoparticles in honeycomblike carbon spheres for the adsorption of Sb (III) and sequential utilization as a catalyst. ACS Sustainable Chemistry & Engineering,2018, 6, 12925-12934.

  41. Ruihang Jiang, Zhangpei Chen*, Kai Zhan, Lei Liu, Junjie Zhou, Yongjian Ai, Shuang Li, Hong-Bin Sun*. Reusable rhodium catalyst for the selective transvinylation of sp-C linked carboxylic acid. Tetrahedron Letters, 2018, 59, 3279-3282.

  42. Shuang Li, Heng Xiang, Ruihang Jiang, Jia Ju*, Pengchong Jiao, Hualei Yuan, Hong-bin Sun*, Huaqiang Cai. Stereoselective Vinylation under Mild Metal-Free Conditions to Synthesize N-Vinylazoles. Chin. J. Org. Chem. 2018,38 (6), 1493.

  43. Ruihang Jiang, Hong-bin Sun*, Shuang, Li, Kun Zhan; Junjie Zhou, Lei Liu, Kai Zhang, Qionglin Liang, Zhangpei, Chen*. Synthesis of tetrazoles, triazoles, and imidazolines catalyzed by magnetic silica spheres grafted acid. Synth. Commun.2018,48 (20), 2652-2662.

  44. Hong-Bin Sun*, Yongjian Ai, Dong Li, Zhike Tang, Zixing Shao, Qionglin Liang*. Bismuth iron oxide nanocomposite supported on graphene oxides as the highly efficient, stable and reusable catalysts for the reduction of nitroarenes under continuous flow conditions. Chemical Engineering Journal, 2017, 314, 328-335.

  45. Junjie Zhou, Zhangpei Chen*, Zenan Hu, Kang Li, Yongjian Ai, Shuang Li, Li Qi, Zhike Tang, Lei Liu, Hong-Bin Sun*. Rhodium nanoparticles loaded on carbon-wrapped Fe3O4 sphere: an efficient, stable and magnetically recoverable catalyst for the catalytic transfer hydrogenation of nitroarenes in water. ChemistrySelect, 2017, 2, 6762–6766.

  46. Junjie Zhou, Yunong Li, Hong-Bin Sun*, Zhike Tang, Li Qi, Lei Liu, Yongjian Ai, Shuang Li, Qionglin Liang*. Porous silica-encapsulated and magnetically recoverable Rh NPs: a highly efficient, stable and green catalyst for catalytic transfer hydrogenation with “slow-release” of stoichiometric hydrazine in water. Green Chemistry, 2017, 19, 3400-3407.

  47. Yongjian Ai, Lei Liu, Ke Jing, Li Qi, Zhibo Fan, Junjie Zhou, Hong-Bin Sun*, Qionglin Liang*. Noncovalently functionalized carbon nanotubes immobilized Fe–Bi bimetallic oxides as a heterogeneous nanocatalyst for reduction of nitroaromatics. Nano-Structures & Nano-Objects, 2017, 10, 116-124.

  48. Lei Liu, Yongjian Ai, Dong Li, Li Qi, Junjie Zhou, Zhike Tang, Zhixing Shao, Hong-Bin Sun*, Qionglin Liang*. Recyclable acid-base bifunctional core-shell-shell nanosphere catalyzed synthesis of 5-Aryl-1H-1,2,3-triazoles through the “One-Pot” cyclization of aldehydes, nitromethane, and sodium azide. ChemCatChem, 2017, 9, 3131-3137.

  49. Dong Li, Lie Liu L, Yu Tian, Yongjian Ai, Zhike Tang, Hong-Bin Sun*, Gang Zhang*. A flow strategy for the rapid, safe and scalable synthesis of N-H 1, 2, 3-triazoles via acetic acid mediated cycloaddition between nitroalkene and NaN3. Tetrahedron, 2017, 73, 3959-3965.

  50. Li Qi, Yunong Li, Lei Liu, Junjie Zhou,Yongjian Ai, Zhike Tang, Jingtign Wang, Qionglin Liang, Hong-Bin Sun*, Dun Niu*. Immobilizing multifunctional Fe2O3-SnO2 nanoparticles to carbon nanospheres: an extremely active and selective catalyst for hydrogen transfer reaction. ChemistrySelect,2017, 2, 8288-8295.

  51. Jifan Li, Lei Liu, Yongjian Ai, Zenan Hu, Liping Xie, Hongjie Bao, Jiajing Wu, Haimeng Tian, Rongxiu Guo, Shucheng Ren, Wenjuan Xu, Hongbin Sun*, Gang Zhang*, Qionglin Liang. Facile and large-scale fabrication of sub-3 nm PtNi nanoparticles supported on porous carbon sheet: a bifunctional material for the hydrogen evolution reaction and hydrogenation. Chemistry–A European Journal 2019, 25, 7191-7200.

  52. Jifan Li, Lei Liu, Yongjian Ai, Zenan Hu, Zhibo Liu, Rongxiu Guo, Cheng Zhang, Haimeng Tian, Jiajing Wu, Man Ruan, and Hong-bin Sun*. Moderate activity from trace palladium alloyed with copper for the chemoselective hydrogenation of –CN and –NO2 with HCOOH. ChemistrySelect2019, 4, 7346–7350.

  53. Hong-Bin Sun*, Yongjian Ai, Shanshan Ren, Yuanyuan Li, Dong Li. Copper promoted catalytic cleavage of esters under nearly neutral conditions in the presence of NaN3. Tetrahedron Letters, 2015, 56, 2678–2683.

  54. Qi Sun*, Chengjun Wang, Shanshan Gong, Yongjian Ai, Hong-Bin Sun*. Cp2ZrCl2-catalyzed synthesis of 2-aminovinyl benzimidazoles under microwave conditions. Chinese Chemical Letters, 2015, 26, 297–300.

  55. Hong-bin Sun*; Dong Li; Weiping Xie; Xinlin Deng, Catalytic Cyclization Of 2,3-Dibromopropionates With Benzyl Azides to Afford 1-Benzyl-1,2,3-Triazole-4-Carboxylate: the Use of a Nontoxic Bismuth Catalyst. Heterocycles,2016,92 (3), 423-430.



已授权的发明专利:

1. 一种三循环式无废水制备苯氧乙酸的方法,CN201410337292.8,孙宏滨,齐轩,尚兴翠,李媛媛

2. 一种高盐度含酚废水的处理方法,CN103553165A,齐轩,胡筱敏,孙宏滨

3. 由芬顿泥制备锑吸附剂并顺序生产硝基还原催化剂的方法,ZL201710952981.3,孙宏滨,王婧婷,艾永建,牛盾,左卫雄

4. 一种由还原铁粉废渣制备硝基还原催化剂的方法,ZL20170261769.2,孙宏滨,周俊杰,唐志珂

5. 由铁碳微电解废弃物处理污水并后续制备催化硝基还原催化剂的方法,ZL201710952975.8,孙宏滨,王婧婷,艾永建,牛盾,左卫雄

6. 一种高盐度废水的处理方法,ZL201710953850.7,孙宏滨