资环学院教师简介-赵松建

发布者:资源与环境工程学院发布时间:2022-11-07浏览次数:2395

姓名

赵松建

性别

职称

教授

学历

博士研究生

学科

环境工程

部门

环境系

电话


0519-86953803

E-mai

zhaosongjian@jsut.edu.cn


个人介绍

赵松建,男,博士,教授,硕士生导师。20156月博士毕业于环境科学与工程专业。20157月至201912月从事博士后研究,期间获选2017香江学者计划,并在香港进行两年的博士后研究工作。获得江苏省“双创博士”、常州市领军型创新人才、苏港澳遥感与环境专业联盟委员、江苏理工学院中吴科研创新团队带头人等多项荣誉主持了国家自然科学基金青年基金、江苏省自然科学基金面上项目、中国博士后面上基金以及多项横向课题,并参与国家重点研发项目、973 863 课题等研究。已经在Environmental Science & TechnologyChemical Engineering JournalJournal of Hazardous Materials等期刊发表了70余篇SCI论文,获得授权专利20项。

研究方向:环境功能材料研发及应用、工业VOCs气体治理技术、二CO2捕集及还原技术、烟气汞控制技术,O3降解及协同去除污染物技术、CO氧化、新能源废旧电池资源化利用等研究

  承担及参与项目:

[1] 江苏省自然科学基金面上项目,BK20241970,高分散非对称配位吸附材料的构筑及抗硫除汞机制研究,2024.09-2027.08,主持;

[2] 国家青年科学基金项目,21607102,烧结烟气汞排放规律及其与持久性有机污染物协同控制新技术,2017.01-2019.12,主持;

[3] 博士后面上项目,2015M581626,金属有机骨架材料去除烟气中零价汞的研究,2016/01-2019/12,主持;

[4] 常州市领军型创新人才引进培育项目,KYZ22012,多效催化材料协同控制烟气汞与氯代有机污染物的研究,2022/01-2024/12主持

[5] 国家重点研发计划,2017YFC0210500,有色金属冶炼烟气多污染物协同控制技术, 2017/01-2020/12,参加;

[6] 国家自然科学基金面上项目,51478261,荷电吸附凝并技术协同控制燃煤烟气汞及细粒子的作用机制, 2016/01-2018/12,参加;

[7] 国家重点基础研究发展计划(973计划),2013CB430005、汞污染排放过程形态调控机制及控制技术原理,2013/01-2016/12,参加;

[8] 国家自然科学基金面上项目,21277088,脱硝催化剂对零价汞的催化氧化机制及多效SCR-Plus协同催化体系的构建, 2013/01-2015/12,参加;

[9] 国家高技术研究发展计划(863计划)2013AA065403,燃煤烟气循环流化床脱硝脱汞一体化及多污染物协同净化技术研究与示范,2013/01-2016/12,参加;

[10] 江苏省自然科学基金,BK20210983冶炼高硫高汞气氛下泵吸附剂的研制及吸附机制研究,2021/07-2024/06,参加;

[11] 校企合作,污泥干化过程中恶臭气体的控制研究江苏通用环保集团有限公司,主持;

[12] 校企合作,面向化工行业有机废气净化的催化剂制备及性能研究,江苏省环境工程技术有限公司,主持;

[13] 校企合作,烧结烟气一氧化碳氧化催化剂开发,常州氯光环保科技有限公司,主持;

[14] 校企合作,抗氯高效VOCs催化材料开发研究,江苏大恒环保设备制造有限公司,产学研技术开发合作项目,主持.

  代表性成果:

1. 论文:

2025

[1] Dilong Qiang, Tianhong Mei, Yue Liu, Hongyang Jin, Zhaolian Ye, Zhen Li*, Songjian Zhao*. Enhanced low-temperature activity for CO2 methanation over N-doped NiMn-LDO. Chemical Engineering Journal, 2025,507: 160839.

[2] Yimeng Zhu, Xin Min*, Xueqian Wu, Siyan Huang, Jia Cai, Zhen Li, Songjian Zhao*. Structure–Activity Relationships and Catalytic Applications of Manganese-Based Oxides with Different Nanostructures in Multi-Pollutant Gas Treatment. ACS Applied Nano Materials, 2025, 8(9):4770-4783.

[3] Su Wang, Yue Liu, Tianhong Mei, Zhaolian Ye, Quanfa Zhou, Zhen Li*, Songjian Zhao*. Efficient Mercury Capture from Non-Ferrous Smelting Flue Gas Using Bimetallic Sulfides. Journal of Environmental Chemical Engineering, 2025,13(2): 115734.

[4] Hongyang Jin, Xin Min, Zhen Li, Ke Chen, Lei Zhong, Songjian Zhao*. Synthesis of NiMn-LDHs from spent manganate lithium batteries for efficient ozone decomposition in humid environment. Applied Catalysis A: General, 2025, 691(5): 120078.

[5] Jinxin Yu, Xin Min, Xueqian Wu, Tianhong Mei, Ke Chen, Zhen Li*, Songjian Zhao*. Efficient low-temperature CO removal from high-humidity sintering flue gas by combination Cu and OMS-2. Microporous and Mesoporous Materials, 2025, 381(1): 113358.

[6] Xiaotong Li, Jie Zhou, Mingzhe Dong, Wenpeng Tong, Lei Zhong*, Songjian Zhao*. Promotion effect of element doping on the moisture resistance property of iron-based spinel catalysts for CO-SCR reaction. Journal of the Taiwan Institute of Chemical Engineers, 2025, 172:106097.

[7] Esimoneze Emmanuel Chinedu, Dilong Qiang, Xueqian Wu, Wei Liu, Haizhou Cao, Zhaolian Ye, ZhenLi, Songjian Zhao*. Promoting distribution of surface-active sites by regulates interfacial binding of TiO2 and Pt using organic acid: Stable Cl-VOCs catalytic properties. Molecular Catalysis, 2025, 115077.

[8] Yucheng Liu, Xinzhi Zang, Songjian Zhao, Zixuan Wang, Wenqiang Wang, Jingxin Xu, Sheng Wang, Zhaolian Ye*. Degradation of toluene by DBD plasma catalytic technology with CoMn-BTC/Ti3C2Tx composites. Applied Catalysis A: General, 2025,695(5): 120180.

2024

[1] Zhen Li, Jin Zhao, Daorong Sun, Xueqian Wu, Tianhong Mei, ZhaoLian Ye, Songjian Zhao*. Excellent mercury removal in high sulfur atmosphere using a novel CuS-BDC-2D derived by metal-organic frame[J]. Environmental Science & Technology, 2024, 58: 660–670.

[2] Zhen Li; Jin Zhao; Daorong Sun; Jinxin Yu; Xueqian Wu; Songjian Zhao*. Efficient removal of Hg0 by regulating the bonding degree between CuO and carrier Nb2O5[J]. Separation and Purification Technology, 2024, 332: 125796.

[3] Yitong Fu, Lei Zhong*, Lei Zhong, Zhuxu Li, Hongyang Jin, Xinqi Liu, Wenpeng Tong, Xiaotong Li, Songjian Zhao*. Spinel (Mn, Fe)3O4  nanocatalyst for the catalytic ozone decomposition under humid conditions. ACS Applied Nano Materials, 2024, 7: 7111-7121.

[4] Xueqian Wu, Zhen Li, Jiangyan Tao, Yufei Xie, Wei Liu, Songjian Zhao*. Rapid degradation of formaldehyde using Fe coupled with walnut shell biochar with high surface defect in Fenton-like reaction. Process Safety and Environmental Protection, 2024, 186: 1053-1065.

[5] Xueqian Wu, Yufei Xie, Jiangyan Tao, Hongyang Jin, Songjian Zhao*. Effect and mechanism analysis by regulating {211} crystal facet of nanowire manganese dioxide on chlorobenzene degradation. Fuel, 2024,375: 132561.

[6] Yuzhu Wei, Jiahui Wang, Jinku Ma, Feng Kong, Jinjuan Xue, Zhaolian Ye, Shuaishuai Ma*, Songjian Zhao*. Fabrication of porous biochar supported Bi2MoO6 photocatalyst for efficient degradation of ciprofloxacin in seawater under visible light irradiation: Mechanistic investigation and intermediates analysis. Separation and Purification Technology, 2024, 349: 127860.

[7] Hongyang Jin, Zhen Li, Xin Min, Lei Zhong, Ke Chen, Songjian Zhao*. Efficient ozone decomposition by optimizing defect sites of NiMn-layered double hydroxides under high humidity air. Journal of Environmental Chemical Engineering, 2024,12(6): 114858.

[8] Wei Liu, Xueqian Wu, Yucen Xie, Yufei Xie, Songjian Zhao*. Study on the combustion of toluene by acid etching assisted ultrasonic supported low content Pt catalyst. Applied Catalysis A: General, 2024, 687(25): 119970.

 [9] Xueqian Wu; Zhen Li; Jiangyan Tao; Jin Zhao; Yufei Xie; Songjian Zhao*. Efficient removal of formaldehyde from wastewater by Cu defect induction of dendritic snowflake Cu7S4 Fenton-like catalysts[J]. Journal of Environmental Chemical Engineering, 2024, 12(2): 111982.

 [10] Lei Zhong*, Jie Zhou, Xinqi Liu, Yitong Fu, Zhaolian Ye, Songjian Zhao*. Plasma-catalytic synergistic oxidation of NO in the non-thermal plasma system: Insight into the active sites effect. Journal of Environmental Chemical Engineering, 2024,12: 113292.

[11] Wei Liu, Jin Zhao, Yue Liu, Zhen Li, Songjian Zhao*. Efficient mercury removal in high SO2 flue gas using a CuS-BTC metal-organic frameworks. Journal of the Energy Institute, 2024, 115: 101682.

[12] Xueqian Wu, Jin Zhao, Jiangyan Tao, Jiawen Chi, Xin Min, Songjian Zhao*. The performance of CO2 reduction by dielectric barrier discharge plasma coupled Cu-Ni binary silicon-based composites. Journal of Environmental Chemical Engineering, 2024, 12: 113617.

[13] Dilong Qiang, Hongyang Jin, Qishun Qing, Su Wang, Tianhong Mei, Zhen Li, Songjian Zhao*. Iron-doped manganese oxide octahedral molecular sieve catalysts for ozone decomposition. Journal of Environmental Chemical Engineering, 2024,12: 113769.

[14] Jiawen Chi, Xueqian Wu, Jiangyan Tao, Xin Min, Zhen Li*, Songjian Zhao*. DBD-coupled highly dispersed Ni/SiO2 materials for CO2 reduction performance and mechanism study. Journal of the Energy Institute, 2024,113: 101552.

[15] Qishun Qing, Shouwang Zhu, Hongyang Jin, Tianhong Mei, Wei Liu, Songjian Zhao. Efficient ozone decomposition in high humidity environments using novel iron-doped OMS-2-loaded activated carbon material. Environmental Science and Pollution Research, 2024, 31: 35678-35687.

[16] Jin Zhao, Daorong Sun, Zhen Li, Yue Liu, Yongpeng Ma, Songjian Zhao*. Efficient removal of Hg0 by the combination of CuO and excellent carrier Ta2O5[J]. Journal of the Energy Institute, 2024, 112: 101478.

[17] Jiawen Chi, Xueqian Wu, Jiangyan Tao, Xin Min, Zhen Li*, Songjian Zhao*. DBD-coupled highly dispersed Ni/SiO2 materials for CO2 reduction performance and mechanism study[J]. Journal of the Energy Institute, 2024: 113:101552.

2023

[1] Jin Zhao, Xueqian Wu, Yanping Ma, Wei Liu, Zhen Li, Songjian Zhao*. Controlled synthesis of CuS with different morphology and pollution control of Hg0 in non-ferrous smelting flue gas[J]. Fuel, 2023, 351: 128921.

[2] Haijian Qin, Zelong Yang, Qing Xia, Peifei Yao, Chunzhi Zheng, Guangpin Lin, Zhaolian Ye, Songjian Zhao*; Fengli Yang*. Highly efficient catalytic CO oxidation by balancing the crystal and mesoporous structure of Ta2O5 carrier combined with cobalt[J]. Fuel, 2023, 347: 128290.

[3] Zhen Li, Ya Cai, Daorong Sun, Zhaolian Ye, SongjianZhao*. Efficient removal of Hg0 in flue gas using a novel Sn-based porphyrin polymer[J]. Science of The Total Environment, 2023, 870: 161802.

[4] Haijian Qin, Huaibiao Wang, Qing Xia, Chunzhi Zheng, Xiaonan Zhang, You Wu, Lei Peng, Fengli Yang, SongjianZhao*. Efficient CO catalytic oxidation by the combination of cobalt and excellent carrier Ta2O5[J]. Fuel, 2023, 333: 126179.

[5] Huihui Sun, Xinzhi Zang, Hui Wang, Zhen Li, Wenqiang Wang, Aijun Gu, Zhaolian Ye*, Songjian Zhao*. Efficient catalytic degradation of VOCs using Mn-based hydrotalcite-like compounds coupled with non-thermal plasma[J]. Journal of Environmental Chemical Engineering, 2023: 111321.

[6] Wei Liu, Xin Min, Jin Zhao, Songjian Zhao*. Pilot-Scale Experimental Investigation on Dry Capture of Mercury and SO3 in Smelting Gas of Acid Making[J]. ACS Omega, 2023, 45: 42741–42747.

[7] Jiangming Wang, Yongshi Yang, Jinxin Yu, Zhongzhou Ye, Zhen Li, Zhaolian Ye*, Songjian Zhao*. Performance and mechanism of CO2 reduction by DBD-coupled mesoporous SiO2[J]. Nanotechnology Reviews, 2023, 12(1): 20230577.

[8] Jin Zhao, Yanping Ma, Xueqian Wu, Su Wang, Zhen Li, Songjian Zhao*. Efficient capture of mercury ions by a novel organic melamine polymer[J]. Materials Today Communications, 2023, 35: 106230.

[9] Xinzhi Zang, Qun Wang, Huihui Sun, Wei Liu, Zhen Li, Chunzhi zheng, Zhaolian Ye, SongjianZhao*. Excellent degradation of toluene by non-thermal plasma coupled with M-BTC MOF (M= Mn, Cu, Ce)[J]. Process Safety and Environmental Protection, 2023, 176, 196-206.

[10] Shuaishuai Ma, Jinku Ma, Jinjuan Xue, Zhaolian Ye, Minjing Xu, Jiaqian Zhang, Jin Li, SongjianZhao*. Multifunctional hydrophobic bio-based foam toward highly efficient photothermal cleanup of high-viscosity crude oil spills, oil-water separation and aqueous organic pollutant elimination[J]. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2023, 667: 131431.

[11] Haijian Qin, Zelong Yang, Qing Xia, Chunzhi Zheng, Guangpin Lin, SongjianZhao*; Fengli Yang*. Efficient catalyzed oxidation of CO by highly dispersed Co3O4 anchored in oxygen vacancies of Ta2O5[J]. Molecular Catalysis, 2023, 546: 113267.

[12] Xinzhi Zang, Huihui Sun, Wenqiang Wang, Songjian Zhao, Zhen Li*, Zhaolian Ye*. Plasma-catalytic removal of toluene over bimetallic M/Mn-BTC catalysts in dielectric barrier discharge reactor[J]. Separation and Purification Technology, 2023: 125667.

[13] Jinku Ma, Shuaishuai Ma, Jinjuan Xue, Minjing Xu, Jiaqian Zhang, Jin Li, Zhuzi Zhao, Songjian Zhao, Junli Pan, Zhaolian Ye. Synthesis of elastic hydrophobic biomass sponge for rapid solar-driven viscous crude-oil cleanup absorption, oil-water separation and organic pollutants treating[J]. Separation and Purification Technology, 2023, 305: 122512.

2022

[1] Zhen Li; Daorong Sun; Weiqiao Liu; Jian Chen; Yongheng Zhai; Songjian Zhao*. Simultaneous removal of mercury and 1, 2-dichlorobenzene from flue gas by Ru-based catalyst[J]. Fuel, 2022, 309: 122085.

[2] Shuaishuai Ma; Minjing Xu; Zhuzi Zhao; Junli Pan; Songjian Zhao; Jinjuan Xue; Zhaolian Ye. Preparation of 3D superhydrophobic porous g-C3N4 nanosheets@ carbonized kapok fiber composites for oil/water separation and treating organic pollutants[J]. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2022, 648: 129298.

 [3] Yue Wu; Yangwen Chen; Shouqiang Huang; Guobiao Li; Shunping Sun; Yong Jiang; Guobin Liang; Songjian Zhao; Weiqiao Liu, Comparison of bismuth ferrites for chloride removal: Removal efficiency, stability, and structure[J]. Applied Surface Science, 2022, 576: 151804.

[4] Chao Fan; Yaheng Zhang; Shouqiang Huang; Xinyu Yang; Jun Wang; Zhichun Li; Songjian Zhao; Weilin Zheng; Guobiao Li, Effect of introducing zinc on the photoluminescence and stability of cesium lead halide perovskite materials[J]. Applied Surface Science, 2022, 584: 152527.

[5] Shuaishuai Ma; Minjing Xu; Zhuzi Zhao; Junli Pan; Songjian Zhao; Jinjuan Xue; Zhaolian Ye, Preparation of 3D Superhydrophobic Porous g-C3N4 Nanosheets@ Carbonized Kapok Fiber Composites for Oil/Water Separation and Treating Organic Pollutants[J]. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2022: 129298.

2021

[1] Daorong Sun; Zhen Li; Shouqiang Huang; Jiawen Chi; Songjian Zhao*. Efficient mercury removal in chlorine-free flue gas by doping Cl into Cu2O nanocrystals[J]. Journal of Hazardous Materials, 2021, 419: 126423.

[2] Daorong Sun; Zhen Li; Shouqiang Huang; Fengli Yang; Jiawen Chi; Songjian Zhao*, Efficient mercury removal from flue gas using high-quality spinel mixed ferrites obtained from wastewater[J]. Journal of Industrial and Engineering Chemistry, 2021, 25:391-398.

[3] Zhen Li; Daorong Sun; Jiawen Chi; Songjian Zhao*, Efficient mercury removal at low temperature in flue gas with metal-organic frameworks modified by iodine[J]. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2021, 5:126983.

[4] Songjian ZhaoWenjun HuangJiangkun XieWei liuZan QuNaiqiang Yan, Mercury removal from flue gas using UiO-66-type metal-organic frameworks grafted with organic functionalities [J]. Fuel 2021, 289, 119807.

2020年以前

[1] Songjian Zhao; Jian Mei; Haomiao Xu; Wei liu; Zan Qu; Yong Cui; Naiqiang Yan, Research of mercury removal from sintering flue gas of iron and steel by the open metal site of Mil-101(Cr) [J]. Journal of Hazardous Materials 2018, 351, 301-307.

[2] Songjian Zhao; Dongyao Chen; Haomiao Xu; Jian Mei; Zan Qu; Ping Liu; Yong Cui; Naiqiang Yan, Combined effects of Ag and UiO-66 for removal of elemental mercury from flue gas [J]. Chemosphere 2018, 197, 65-72.

[3] Songjian Zhao; Wanmiao Chen; Wenjun Huang; Jiangkun Xie; Zan Qu; Naiqiang Yan. Elemental Mercury Catalytic Oxidation Removal and SeO2 Poisoning Investigation over RuO2 Modified Ce-Zr Complex [J]. Applied Catalysis A: General 2018, 564, 64-71.

[4] Songjian Zhao; Haomiao Xu; Jian Mei; Yongpeng Ma; Tong Lou; Zan Qu; Yan, N., Ag-Mo modified SCR catalyst for a co-beneficial oxidation of elemental mercury at wide temperature range [J]. Fuel 2017, 200, 236-243.

[5] Songjian Zhao; Zan Qu; Naiqiang Yan; Zhen Li; Haomiao Xu; Jian Mei; Quan, F., The performance and mechanism of Ag-doped CeO2/TiO2 catalysts in the catalytic oxidation of gaseous elemental mercury [J]. Catalysis Science & Technology 2015, 5, (5), 2985-2993.

[6] Songjian Zhao; Zhen Li; Zan Qu; Naiqiang Yan; Wenjun Huang; Wanmiao Chen; Xu, H., Co-benefit of Ag and Mo for the catalytic oxidation of elemental mercury [J]. Fuel 2015, 158, 891-897.

[7] Songjian Zhao; Yongpeng Ma; Zan Qu; Naiqiang Yan; Zhen Li; Jiangkun Xie; Wanmiao Chen, The performance of Ag doped V2O5–TiO2 catalyst on the catalytic oxidation of gaseous elemental mercury [J]. Catalysis Science & Technology 2014, 4, (11), 4036-4044.

[8] Songjian Zhao; Zan Qu; Naiqiang Yan; Zhen Li; Wenfei Zhu; Jie pan; Jianfang Xu; Mengdan Li, Ag-modified AgI–TiO2 as an excellent and durable catalyst for catalytic oxidation of elemental mercury [J]. RSC Advances 2015, 5, 30841-30850.

[9] Songjian Zhao; Eeqiang Wang; Mincong Zhu; Lina Ding; Yingchen Zhang; Dengxin Li. Preparation and Properties of Composite Photocatalyst of Needle ZnO Nanorod Grafted in the Pores of Expanded Graphite [J]. Advanced Materials Research 2011, 204:273-277.

[10] Dongyao Chen; Songjian Zhao*; Zan Qu; Naiqiang Yan. Cu-BTC as a novel material for elemental mercury removal from sintering gas [J]. Fuel 2018, 217, 297-305.

[11] Changming Zhang; Wen Song; Xiaochao Zhang; Rui Li; Songjian Zhao*; Caimei Fan. Synthesis, characterization and evaluation of resin-based carbon spheres modified by oxygen functional groups for gaseous elemental mercury capture [J]. Journal of Materials Science 2018, 53, (13), 9429-9448.

[12] Zhen Li#; Songjian Zhao#; Huizhen Wang; Ying Peng; Zhijie Tan; Bin Tang. Functional groups influence and mechanism research of UiO-66-type metal-organic frameworks for ketoprofen delivery [J]. Colloids and Surfaces B: Biointerfaces, 2019, 179:1-7.

[13] Jian Mei; Songjian Zhao, Wenjun Huang; Zan Qu; Naiqiang Yan, Mn-Promoted Co3O4/TiO2 as an efficient catalyst for catalytic oxidation of dibromomethane (CH2Br2) [J]. Journal of Hazardous Materials 2016, 318, 1-8.

[14] Jian Mei; Songjian Zhao, H. X.; Zan Qu; Naiqiang Yan, The performance and mechanism for the catalytic oxidation of dibromomethane (CH2Br2) over Co3O4/TiO2 catalysts [J]. RSC Advances 2016, 6(37):31181-31190.

[15] Jian Mei; Zan Qu; Songjian Zhao; Xiaofang Hu; Haomiao Xu; Naiqiang Yan, Promoting effect of Mn and Ti on the structure and performance of Co3O4 catalysts for oxidation of dibromomethane [J]. Journal of Industrial and Engineering Chemistry 2018, 57:208-215.

[16] Haomiao Xu; Naiqiang Yan; Zan Qu; Wei Liu; Jian Mei; Wenjun Huang; Songjian Zhao, Gaseous Heterogeneous Catalytic Reactions over Mn-Based Oxides for Environmental Applications: A Critical Review [J]. Environmental Science & Technology 2017, 51(16):8879-8892.

[17] Haomiao Xu; Zan Qu; Songjian Zhao; Dongting Yue; Wenjun Huang; Naiqiang Yan, Enhancement of heterogeneous oxidation and adsorption of Hg0 in a wide temperature window using SnO2 supported LaMnO3 perovskite oxide [J]. Chemical Engineering Journal 2016, 292:123-129.

[18] Haomiao Xu; Hongbo Zhang; Songjian Zhao; Wenjun Huang; Zan Qu; Naiqiang Yan, Elemental mercury (Hg0) removal over spinel LiMn2O4 from coal-fired flue gas [J]. Chemical Engineering Journal 2016, 299:142-149.

[19] Haomiao Xu; Yongpeng Ma; Wenjun Huang; Jian Mei; Songjian Zhao; Zan Qu; Naiqiang Yan, Stabilization of mercury over Mn-based oxides: Speciation and reactivity by temperature programmed desorption analysis [J]. Journal of hazardous materials 2017, 321:745-752.

[20] Haomiao Xu, Yongpeng. Ma, Songjian Zhao, Wenjun Huang, Zan Qu, Naiqiang Yan, Enhancement of Ce1−xSnxO2 support in LaMnO3 for the catalytic oxidation and adsorption of elemental mercury [J]. RSC Advances 2016, 6:63559-63567.

[21] Haomiao Xu; Zan Qu; Songjian Zhao; Jian Mei; Fuquan Quan, Naiqiang Yan, Different crystal-forms of one-dimensional MnO2 nanomaterials for the catalytic oxidation and adsorption of elemental mercury [J]. Journal of hazardous materials 2015, 299:86-93.

[22] Haomiao Xu; Yongpeng Ma; Wenjun Huang; Jian Mei; Songjian Zhao; Zan Qu; Naiqiang Yan, Stabilization of mercury over Mn-based oxides: Speciation and reactivity by temperature programmed desorption analysis [J]. Journal of hazardous materials 2017, 321:745-752.

[23] Zhen Li; Qianlan Yao; Songjian Zhao; Yin Wang; Yixue Li; Zhen Wang, Comprehensive analysis of differential co-expression patterns reveal transcriptional dysregulation mechanism and identify novel prognostic lncRNAs in esophageal squamous cell carcinoma [J]. Onco Targets and Therapy 2017, 10:3095-3105.

[24] Zhen Li; Qianlan Yao; Songjian Zhao; Zhen Wang; Yixue Li, Protein coding gene CRNKL1 as a potential prognostic biomarker in esophageal adenocarcinoma [J]. Artificial intelligence in medicine 2017, 76:1-6.

 [25] Wei LiuHaomiao XuYong LiaoZongwen QuanSichao LiSongjian ZhaoZan QuNaiqiang Yan, Recyclable CuS sorbent with large mercury adsorption capacity in the presence of SO2 from non-ferrous metal smelting flue gas [J]. Fuel, 2019, 235: 847-854.

[26] Jiazheng Ren; Kai Cheng; Ming Li; Songjian Zhao; Haoran Li; Yongsheng Chen, Bridging the Gaps Between Experimental and Mechanistic Catalysis Research: A Case Study with CO Oxidation Over a Pd/Al2O3 Catalyst [J]. ChemCatChem, 2019,11: 4427-4433.

[27] Changming Zhang; Wen Song; Xiaochao Zhang; Rui Li; Songjian Zhao; Caimei Fan. Synthesis of CeO2-modified activated carbon spheres by grafting and coordinating reactions for elemental mercury removal [J]. Journal of Materials Science, 2019, 54(4): 2836-2852.

[28] Wen Jun Huang; HaoMiao Xu; Zan Qu; Songjian Zhao; Wan Miao Chen; Nai Qiang Yan, Significance of Fe2O3 modified SCR catalyst for gas-phase elemental mercury oxidation in coal-fired flue gas [J]. Fuel Processing Technology 2016, 149, 23-28.

[29] Changming Zhang; Wen Song; Xiaochao Zhang; Rui Li; Songjian Zhao; Caimei Fan, Synthesis and evaluation of activated carbon spheres with copper modification for gaseous elemental mercury removal [J]. Journal of Porous Materials, 2018: 1-11.

[30] Haomiao Xu; Zan Qu; Wenjun Huang; Jian Mei; Wanmiao Chen; Songjian Zhao; Naiqiang Yan, Regenerable Ag/graphene sorbent for elemental mercury capture at ambient temperature [J]. Colloids and Surfaces A: Physicochemical and Engineering Aspects 2015, 476:83-89.

[31] Haomiao Xu; Jiangkun Xie; Yongpeng Ma; Zan Qu; Songjian Zhao; Wanmiao Chen; Wenjun Huang; Naiqiang Yan, The cooperation of FeSn in a MnOx complex sorbent used for capturing elemental mercury [J]. Fuel 2015, 140:803-809.

   2. 授权发明专利:

1.赵松建,孙道荣,李贞,刘钰婷,吕扬,仇洪波,吕杨杨. 一种钙钛矿材料的制备方法与应用. 中国ZL 202210278843.2.

2.赵松建,吴樊彬,叶招莲,邱超,周全法,孙慧慧,李贞,郑纯智,梁国斌. K改性OMS-2协同低温等离子体催化降解VOCsNOx的方法. 中国ZL 2022107804041. 

3.赵松建,赵锦,叶招莲,尹勇,周全法,李贞,马振晧, 梁国斌.水滑石耦合低温等离子体去除VOCs的方法及应用. 中国ZL 2022107804643.

4. 叶招莲,孙慧慧,赵松建,李旭东,臧鑫芝,郑纯智. 一种VOCs的催化降解方法. 中国ZL 202210219834.6.

5. 叶招莲,臧鑫芝,赵松建,孙慧慧,李旭东,郑纯智,王群. 一种协同脱除VOCsHg0的方法. 中国 ZL202210253957.1

6. 叶招莲,朱龙伟,尹勇,赵松建,崔尧嘉.以废治废降解有机废水的方法,申请号:中国 ZL 202210839515.5

7.晏乃强, 瞿赞, 赵松建, 黄文君, 徐浩淼.一种满足烟气污染物深度脱除的钙-镁联合脱硫脱硝方法. 中国ZL 201510880781.

8.晏乃强, 瞿赞, 梅剑, 赵松建, 黄文君, 刘伟, 徐浩淼.一种可连续再生式低温SCR催化脱硝装置及其应用.中国ZL 201610784222.6.

9.晏乃强, 瞿赞, 马永鹏, 赵松建, 方丽, 宗晨曦, 何玉洁.一种镁强化赤泥的烟气深度脱硫方法.中国ZL 201610463539.X.

10.晏乃强, 瞿赞, 吴忠标, 黄文君, 赵松建, 徐浩淼.一种满足工业烟气深度脱硫脱硝及除尘的一体化多效装置.中国ZL 201510880778.0.

11.晏乃强, 瞿赞, 张其龙, 朱雯斐, 黄文君, 赵松建, 罗李娜, 谭天恩.一种旋流-消旋耦合高效除尘除雾组件. 中国ZL 201610156764.9.

12.晏乃强, 瞿赞, 朱雯斐, 黄文君, 张其龙, 赵松建, 徐浩淼, 谭天恩.一种新型旋流耦合深度脱硫强化模块. 中国ZL 201610157183.7.

13.晏乃强, 瞿赞, 张其龙, 朱雯斐, 黄文君, 赵松建, 罗李娜, 谭天恩.一种旋流-消旋耦合高效除尘除雾组件. 中国ZL 201620211965.X.

14.晏乃强, 瞿赞, 朱雯斐, 黄文君, 张其龙, 赵松建, 徐浩淼, 谭天恩.一种新型旋流耦合深度脱硫强化模块. 中国ZL 201620211562.5.

15. 晏乃强, 瞿赞, 徐浩淼, 赵松建, 黄文君, 梅剑, 全福权. 玻璃窑炉烟气进行深度除尘及脱硫脱硝的综合处理工艺. 中国ZL 201510880764.9.

16.晏乃强, 马永鹏, 瞿赞, 徐文清, 朱廷钰, 赵松建, 陈冬瑶.一种电解铝预焙阳极煅烧烟气脱硫的方法.中国ZL 201610469627.0.

17.晏乃强, 瞿赞, 赵松建, 周世清, 曹瑞麇. 一种镁法烟气脱硫渣浆的强制氧化处理装置. 中国发明专利, 专利号: ZL 201210240101.7.

18.伍静静, 李登新, 赵松建, 段广杰, 王恩强. 含锑金精矿硫酸化焙烧渣提金的湿法预处理方法. 中国发明专利, 专利号: ZL 201010101359.X.

19.瞿赞, 晏乃强, 黄文君, 谢江坤, 赵松建. 一种溴化铁除汞复配液及用其进行烟气除汞的方法. 中国发明专利, 专利号: ZL 201310199654.7.

20.晏乃强, 瞿赞, 陈万苗, 黄文君, 赵松建. 一种催化裂化炼油再生烟气的除尘脱硫的方法. 中国发明专利, 专利号: ZL 201310199692.2.