发表学术论文100余篇，其中Sci和Ei收录80余篇(h-index=20)。部分论文发表在国际知名杂志，如：Advanced Functional Materials，Journal of Physical Chemistry B，Langmuir，Microporous and Mesoporous Materials，Journal of Molecular Catalysis 等。论文被引用近1500次。部分代表文章如下:

2025年

[1] Constructing carbon-defect-rich g-C₃N₄/In₂S₃ 2D vertically stacked Z-scheme heterojunction for ultrafast photocatalytic Cr(VI) reduction. Jian Wang, Chenyang Lin, Guangyuan Chen, Jingjing Jiang, Zheng Wei, Yubao Li, Shijian Zhou, Fu Yang, Yan Kong. Applied Surface Science, 2025,687,162286. >>Fulltext Link

[2] Controllable modification of the In^δ+-O_v interface on In₂O₃ for efficient carbon dioxide hydrogenation to methanol. Ying Wang , Xinyu Ma , Bo Cheng , Jiandong Ling , Yushuang Hu , Shijian Zhou * and Yan Kong *. New Journal of Chemistry，2025, 49, 3590-3598.>>Fulltext Link

[3] Photostable hollow core-shell ZnSe@PDA-7 type-II heterojunction with built-in electric field for efficient photocatalytic generation of H₂O₂. Yubao Li, Guangyuan Chen, Shaowen Wu, Chenyang Lin, Tingting Tang, Qina Quan, Yunyun Lu, Shijian Zhou, Yan Kong. Surfaces and Interfaces, 2025, 64, 106427.>>Fulltext Link

2024年

[1] The structure-activity relationship for the electron-donating functional groups in hydrazone-linked COFs and their photocatalytic H₂O₂ production. Changlai Li , Haoran Xie , Shijian Zhou*, Hao Hu , Guangyuan Chen , Zheng Wei , Jingjing Jiang , Jinping Qin , Zewu Zhang , Yan Kong*. Materials Research Bulletin, 2024,5,73. >>Fulltext Link

[2] Ultrafast photoreduction of Cr(VI) by enhanced adsorption and internal electric field induced via S-scheme In₂S₃/Sn₃O₄ heterostructures with robust interface. Shijian Zhou, Zheng Wei, Haoran Xie, Qichao Jiang, Changlai Li, Hao Hu, Jingjing Jiang, Shichao Qi*, Yan Kong*. Separation and Purification Technology，2024,354,1.>>Fulltext Link

[3] Dual defect sites at g-C₃N₄ synergistically induce the electron localization effect for boosting photocatalytic H₂O₂ production. Jingjing Jiang, Yuyao Chen, Shijian Zhou,* Haoran Xie, Changlai Li, Zheng Wei and Yan Kong *. Catalysis Science & Technology. >>Fulltext Link

[4] Constructing the electron donor-acceptor unit in keto-type structure COFs for enhanced photocatalytic H₂O₂ production. Jingjing Jiang , Changlai Li , Shijian Zhou *, Haoran Xie , Zheng Wei , Yuyao Chen , Yan Kong *. Colloids and Surfaces A: Physicochemical and Engineering Aspects. 2025,705,1. >>Fulltext Link

2023年

[1] Construction of 2D/2D Bi₁₂O₁₇Cl₂/Zn-HMT Z-scheme heterojunction for efffcient photocatalytic tetracycline hydrochloride degradation and Cr(Ⅵ) reduction.Qichao Jiang , Hua Sun , Shijian Zhou* , Chunxia Liu, Zewu Zhang , Hao Hu , Haoran Xie , Changlai Li , Zheng Wei , Yan Kong*. Journal of Alloys and Compounds, 2023,6, 947.>>Fulltext Link

[2] Unveiling the latent reactivity of imines on pyridine-functionalized covalent organic frameworks for H₂O₂photosynthesis.Shijian Zhou†, Hao Hu†, Huikang Hu , Qichao Jiang, Haoran Xie, Changlai Li, Shuying Gao, Yan Kong* and Yingjie Hu*. SCIENCE CHINA Materials, 2023,2, 73.>>Fulltext Link

[3] Fabrication and Characterization of Heterogeneous Sheet-like Mesoporous Cu3(PO4)2⋅3H2O Catalysts and Selective Catalytic Oxidation of Styrene.Lingling Pan, Chunlei Song, Jin Wang, Junduo Sun, Shijian Zhou*, Yan Kong*.ChemistrySelect ,2022,6,7(45).>>Fulltext Link

[4] Engineering in-plane pi-conjugated structures in ultrathin g-C3N4 nanosheets for enhanced photocatalytic reduction performance. Shuying Gao, Lingling Pan, Weiguo Kong, Li Zhou, Jian Wu, Shijian Zhou, Weilong Shi, Fu Yang, Yan Kong.Applied Surface Science,2022,11,610.>>Fulltext Link

[5] Construction of plum-branch-like BiOI/NH2-MIL-68(In) Z-scheme heterojunctions for removal of tetracycline hydrochloride from wastewater via synergistic adsorption-photocatalysis process.Haoran Xie, Junduo Sun, Shijian Zhou*, Chunxia Liu, Qichao Jiang, Hao Hu, Changlai Li, Zewu Zhang, Jinping Qin, Yan Kong*,Colloids and Surfaces A: Physicochemical and Engineering Aspects,2023,6,674.>>Fulltext Link

[6] Fragmentation engineering on the edge of hydroxy-functional COFs for the enhanced photocatalytic production of H₂O₂ and direct photo-oxidation of benzene to phenol in aqueous systems. Shijian Zhou, Yuexin Shi, Guangyuan Chen, Weiguo Kong, Hao Hu*, Haoran Xie, Changlai Li, Jinping Qin, Zewu Zhang, Luming Peng, Xiaokang Ke, Yan Kong*，Chemical Engineering Journal，2023,477,146946.>>Fulltext Link

[7] The photocatalytic mineralization of phenolic wastewater via self-generation and -activation of H₂O₂technology. Hao Hu, Yingjie Hu, Weiguo Kong, Yinglong Tao, Qichao Jiang, Jian Wang, Changlai Li, Haoran Xie, Yuexin Shi, Yubao Li, Guangyuan Chen, Jie Liang, Shijian Zhou*, Yan Kong*, Yongfa Zhu*,Journal of Environmental Chemical Engineering,2023,11,5,111108.>>Fulltext Link

2022年

[1] Mesopore-encaged V-Mn oxides: Progressive insertion approach triggering reconstructed active sites to enhance catalytic oxidative desulfuration. Fu Yang, Ruyi Wang, Shijian Zhou, Xuyu Wang, Yan Kong, Shuying Gao. Chinese Journal of Chemical Engineering，2022，4,182-193. >> Fulltext Link

[2] Construction of a novel Ag/Ag 3 PO 4 /MIL-68(In)-NH 2 plasmonic heterojunction photocatalyst for high-efficiency photocatalysis. Feihu Mu, Benlin Dai, Wei Zhao, Shijian Zhou, Haibao Huang, Gang Yang, Dehua Xia, Yan Kong, Dennis Y.C. Leung, Journal of Materials Science & Technology, 2022,2，37–48. >> Fulltext Link

Fulltext Link

[4] Rational modification of hydroxy-functionalized covalent organic frameworks for enhanced photocatalytic hydrogen peroxide evolution. Hao Hu, Yinglong Tao, Di Wang, Changlai Li, Qichao Jiang, Yuexin Shi, Jian Wang, Jinping Qin, Shijian Zhou, Yan Kong. Journal of Colloid and Interface Science, 2023, 1,750-762.>>Fulltext Link

[5] Coupling In-plane π-Electrons with Oxygen-Heteroatom in Ultrathin g-C3N4 Nanosheets for Markedly Improved Photodegradation Activity.Li Zhou, Lingling Pan, Weiguo Kong, Shijian Zhou, Fu Yang, Shuying Gao,* and Yan Kong*, ACS Applied Optical Materials, 2022,9, >> Fulltext Link
[6] Z型异质结Au/CoWO₄/g-C₃N₄的制备及其光催化降解性能[J].熊翠蓉,李玮宁,胡浩,蔡琼,孔岩＊.无机化学学报,2022,38(11):2222-2230. >> Fulltext Link

2021年

[1] Engineering Z-system hybrids of 0D/2D F-TiO₂ quantum dots/g-C₃N₄ heterostructures through chemical bonds with enhanced visible-light photocatalytic performance. Jian Wang, Wei Lin, Hao Hu, Chun xia Liu, Qiong Cai, Shijian Zhou, Yan Kong. New Journal of Chemistry, 2021,45, 3067-3078 >> Fulltext Link

[2] In Situ Anchoring Ultra Small Au Nanoparticles by Conformal Coating of Carbon Layer within the Micro-Environments of Mesoporous Silica for Highly Efficient Catalytic Reduction of 4-nitrophenol. Huikang Hu, Weiguo Kong, Weimin Jin, Chunxia Liu, Shijian Zhou.Catalysis Letters, doi.Org/10.1007/s10562-020-03409-3. >> Fulltext Link

[3] Metal-organic framework-derived rodlike AgCl/Ag/In2O3: A plasmonic Z-scheme visible light photocatalyst. Feihu Mu, Chunxia Liu, Yun Xie, Shijian Zhou, Benlin Dai, Dehua Xia, Haibao Huang, Wei Zhao, Cheng Sun, Yan Kong, Dennis Y.C.Leung. Chemical Engineering Journal. 2021, 129010. >> Fulltext Link

[4] Engineering 2D compressed layered g-C₃N₄ nanosheets by the intercalation of BiVO₄-Bi₂WO₆ composites for boosting photocatalytic activities. Hao Hu; Weiguo Kong; Jian Wang; Chunxia Liu; Qiong Cai; YanKong; Shijian Zhou; Zhibin Yang. Applied Surface Science. 2021, 149796. >> Fulltext Link

[5] Engineering carbon-defects on ultrathin g-C3N4 allows one-pot output and dramatically boosts photoredox catalytic activity. Shuying Gao; Xuyu Wang; Changjian Song; Shijian Zhou; Fu Yang; Yan Kong. Applied Catalysis B: Environmental. Volume 295, 15 October 2021, 120272. >> Fulltext Link

[6] Density Functional Theory Study of Small Au Nanoparticles Anchored on the Inner Surface of Mesoporous Co3O4 for the Catalytic Reduction of 4-Nitrophenol. Shijian Zhou, Chunxia Liu, Weiming Jin, Lingling Pan, Qichao Jiang, Yingjie Hu, and Yan Kong. ACS Appl. Nano Mater. 2021, 4, 5, 4763–4773.>> Fulltext Link

[7]Probing the formation and optical properties of Ti3+–TiO2 with (001) exposed crystal facet by ethanol-assisted fluorination. Jian Wang; Wei Lin; Shulan Zhou; Zheng Li; Hao Hu; Yinglong Tao; Shijian Zhou; Xian Zhaodan; Yan Kong. New Journal of Chemistry, 2021, 45, 124 53- 12463. >> Fulltext Link

2020年

[1] Synergy Derived from Bimetal Co−Cu in Phosphate to Enables Ultrafast Catalytic Hydrogenated Activity in Nitrophenol Reduction. Jin Wang，Shuying Gao，Xu Hu，Shijian Zhou，Dr.Fu Yang，Prof.Yan Kong.ChemistrySelect, 2020, 5, 3405 – 3412.>> Fulltext Link

[2] A Metal-Free Donor–Acceptor Covalent Organic Framework Photocatalyst for Visible-Light-Driven Reduction of CO2 with H2O.Kai Lei，Di Wang，Liqun Ye，Mingpu Kou，Yu Deng,，Zhaoyu Ma，Li Wang, and Yan Kong.ChemSusChem, 2020, 13, 1725 – 1729.>> Fulltext Link

[3] Record-high catalytic hydrogenated activity in nitroarenes reduction derived from in-situ nascent active metals enabled by constructing bimetallic phosphate. Fu Yang，Jin Wang，Shuying Gao， Shijian Zhou ，Yan Kong.Molecular Catalysis, 486(2020) 110873. >> Fulltext Link

[4] High promoting of selective oxidation of ethylbenzene by Mn-ZSM-5 synthesized without organic template and calcination. Xianfeng Liu，shuying Gao，Fu Yang，Shijian Zhou，Yan Kong.Research on Chemical Intermediates, 46, 2817–2832(2020).>> Fulltext Link

[5] Effects of synergetic effect between Co and γ-Fe2O3 in confined silica matrix of MCM-41 on the formation of free radicals for the advanced oxidation technology.Shijian Zhou，Changjian Song，Weiguo Kong，Bangbang Wang，Yan Kong.Applied Surface Science, 527(2020) 146853. >> Fulltext Link

[6] Enabling synchronous activation of inner-core and mesoporous outer-shell of monodispersed Fe3O4@SiO₂ by in-situ implanted MnOx to synergistically deliver enhanced catalytic activity.Fu Yang，Xu Hu，Shuying Gao , Xianfeng Liu，Shijian Zhou，Yan Kong.Journal of Alloys and Compounds, 2020:155817. >> Fulltext Link

[7] Neighboring Cu toward Mn site in confined mesopore to trigger strong interplay for boosting catalytic epoxidation of styrene. Ruyi Wang, Xianfeng Liu, Fu Yang, Shuying Gao, Shijian Zhou, YanKong. Applied Surface Science, 2021, 537, 148100. >> Fulltext Link

[8] Preparation of ZSM-5 containing vanadium and Bronsted acid sites with high promoting of styrene oxidation using 30% H2O2. Liu, XF; Yang, F; Gao, SY; Shao, B; Zhou, SJ; Kong, Y. Chinese Journal of Chemical Engineering, 2020,28(5),1302-1310. >> Fulltext Link

2019年

[1] Nanosheet-like Ni-based metasilicate towards the regulated catalytic activity in styrene oxidation via introducing heteroatom metal.Fu Yang，Bo Shao，Xianfeng Liu，Shuying Gao，Xu Hu，Man Xu，Yun Wang，Shijian Zhou，Yan Kong.Applied Surface Science. 471 (2019) 822–834. >> Fulltext Link

[2] Acid-redox bifunctional Fe/Al-AMS catalyst: Simultaneously oriented introducing Fe2O3 in the channels and Al in the framework of AMS and its enhanced catalytic performance.Shijian Zhou, Bo Shao, Weiming Jin, Xiaoming Li, Yun Ding, Bangbang Wang, Yan Kong.Applied Catalysis A, General. 575 (2019) 159–169. >> Fulltext Link

[3] Bimetallic metal–organic frameworks-derived mesoporous CdxZn1-xS polyhedrons for enhanced photocatalytic hydrogen evolution.Mu, Feihu; Zhou, Shijian; Wang, Yun; Wang, Jian; Kong, Yan.Journal of Materials Research.2019，30,1173-1184. >> Fulltext Link

[4] A comparative study on photocatalytic hydrogen evolution activity of synthesis methods of CDs/ZnIn2S4 photocatalysts.Kai Lei, Mingpu Kou, Zhaoyu Ma, Yu Deng, Liqun Ye, Yan Kong.Colloids and Surfaces A 574 (2019) 105–114. >> Fulltext Link

[5] 无模板法合成介孔棒状钴酸锰及其苯乙烯环氧化反应性能[J].徐蔓,苏航,邵波,王芸,周诗健,孔岩.无机化学学报,2019,35(7):1121-1129. >> Fulltext Link

[6] Exposed ternary metal active sites on mesoporous channels: A promising catalyst for low-temperature selective catalytic oxidization of phenol with H2O2,Shuying Gao,Fu Yang, Xianfeng Liu,Xu Hu, Changjian Song, Shijian Zhou, Yan Kong.Molecular Catalysis, 478 (2019) 110568. >> Fulltext Link

[7] Photocatalytic producing dihydroxybenzenes from phenol enabled by gathering oxygen vacancies in ultrathin porous ZnO nanosheets.Shuying Gao, Fu Yang, Changjian Song, QiongCai, Ru yi Wang, Shijian Zhou, Yan Kong. Applied Surface Science. 2,020,505,144,580. >> Fulltext Link

[8] Construction of 3D hierarchical microarchitectures of Z-scheme UiO-66-(COOH)2/ZnIn2S4 hybrid decorated with non-noble MoS2 cocatalyst: A highly efficient photocatalyst for hydrogen evolution and Cr(VI) reduction.Feihu Mu, Qiong Cai, Hao Hu, Jian Wang, Yun Wang, Shijian Zhou, Yan Kong. Chemical Engineering Journal.2,020,384,123,352. >> Fulltext Link

2018年

[1] Oriented Decoration in Metal-Functionalized Ordered Mesoporous Silicas and Their Catalytic Applications in the Oxidation of Aromatic Compounds,Shijian Zhou, Fu Yang, Bangbang Wang, Hang Su, Kangchao Lu, Yun Ding, Kai Lei, Man Xu, Bo Shao, Yun Wang and Yan Kong.Catalysts,2018,8(2), 80. >> Fulltext Link

[2] Silver-Incorporated Mussel-Inspired Polydopamine Coatings on Mesoporous Silica as an Efficient Nanocatalyst and Antimicrobial Agent,Yiyan Song, Huijun Jiang, Bangbang Wang, Yan Kong, and Jin Chen.ACS Applied Materials & Interfaces,2018, 10 (2), pp 1792–1801. >> Fulltext Link

[3] Stabilized Pony-Sized-CuFe2O4/Carbon Nitride Porous Composites with Boosting Fenton-like Oxidation Activity，Kangchao Lu, Fu Yang, Dr. Wei Lin, Dr. Shijian Zhou, Tao Xi, Changjian Song, Prof. Yan Kong.ChemistrySelect,2018,3,4207–4216. >> Fulltext Link

[4] Belt‐Like Cobalt Phosphate Tetrahydrate as the Non‐Noble Metal Catalyst with Enhanced Catalytic Reduction Activity，Hang Su, Man Xu, Dr. Shijian Zhou, Dr. Fu Yang, Bangbang Wang, Bo Shao, Prof. Yan Kong.ChemistrySelect,2018,3, 6924 – 6934. >> Fulltext Link

[5] 二羟基苯甲酸辅助合成不同形貌二氧化铈及其在NH3-SCR中的应用[J].苏航, 徐蔓, 周诗健, 杨福, 孔岩.无机化学学报,2018,34(8):1538-1546. >> Fulltext Link

[6] Enriched Ag Nanospecies Interspersed Nanoporous Siliceous Antibacterial Agent. Dr. Fu Yang, Dr. Yiyan Song, Dr. Ling Cai, Prof. Shijian Zhou, Prof. Jin Chen, Prof. Yan Kong.ChemistrySelect, 2018, 3, 10255– 10258. >> Fulltext Link

[7] In-situ intercalation of Au nanoparticles and magnetic γ-Fe2O3 in the walls of MCM-41 with abundant void defects for highly efficient reduction of 4-nitrophenol and organic dyes. Shijian Zhou, Weiming Jin, Yun Ding, Bo Shao, Bangbang Wang, Xu Hu and Yan Kong.Dalton Transactions. 2018, 47, 16862 - 16875. >> Fulltext Link

[8] Defects remodeling of g-C3N4 nanosheets by fluorine-containing solvothermal treatment to enhance their photocatalytic activities. Wei Lin, Kangchao Lu, Shijian Zhou, Jian Wang, Feihu Mu, Yun Wang, YongWu, YanKong. Applied Surface Science. 2019，474,194-202. >> Fulltext Link

2017年

[1] The structure-property relationship of oxovanadium(IV) complexes in the wall framework of PMOs and their catalytic applications. Shijian Zhou, Bangbang Wang, ShuyingGao, Yun Ding, YanKong.Applied Surface Science,2017,397:183-191. >> Fulltext Link

[2] In situ embedding of ultra-fine nickel oxide nanoparticles in HMS with enhanced catalytic activities of styrene epoxidation.Fu Yang, Shijian Zhou, Shuying Gao, Xianfeng Liu, Saifu Long, Yan Kong.Microporous and Mesoporous Materials,2017,238:69-77. >> Fulltext Link

[3] In situ incorporation of well-dispersed Cu–Fe oxides in the mesochannels of AMS and their utilization as catalysts towards the Fenton-like degradation of methylene blue.Xiaoming Li, Yan Kong, Shijian Zhou, Wang Bangbang. Journal of Materials Science,2017,52(3):1432-1445. >> Fulltext Link

[4] A Facile One-Step Synthesis of Fe-Doped g-C3N4 Nanosheets and Their Improved Visible-Light Photocatalytic Performance. Jingtian Gao, Yun Wang, Dr. Shijian Zhou, Dr. Wei Lin, Prof. Yan Kong. ChemCatChem,2017,9,1708–1715. >> Fulltext Link

[5] Facilely self-reduced generation of Ag nanowires in the confined reductive siliceous nanopores and its catalytic reduction property. FuYang, BangbangWang, Hang Su, Shijian Zhou, YanKong. Journal of Alloys and Compounds,2017,719. >> Fulltext Link

[6] Micropore-enriched CuO-based silica catalyst directly prepared by anionic template-induced method and its boosting catalytic activity in olefins epoxidation. Fu Yang, BangBang Wang, Shijian Zhou, Saifu Long, Xianfeng Liu, Yan Kong. Microporous and Mesoporous Materials,2017,246. >> Fulltext Link

[7] Oriented surface decoration of (Co-Mn) bimetal oxides on nanospherical porous silica and synergetic effect in biomass-derived 5-hydroxymethylfurfural oxidation.Fu Yang, Yun Ding, Jingjing Tang, Shijian Zhou, Bangbang Wang, YanKong. Molecular Catalysis,2017,435:144-155. >> Fulltext Link

[8] Template-Free Synthesis of High-Content Vanadium-Doped ZSM-5 with Enhanced Catalytic Performance.Xianfeng Liu, Shenglai Zhong, Fu Yang, Hang Su, Dr. Wei Lin, Dr. Junchao Chen, Prof. Luming Peng, Dr. Shijian Zhou, Prof. Yan Kong.ChemistrySelect,2017, 2, 11513. >> Fulltext Link

[9] Thermal-induced surface defective Co/Fe–Co planar hybrid composite nanosheet with enhanced catalytic activity in the Fenton-like reaction.Mater. Fu Yang, Bangbang Wang, Hang Su, Shijian Zhou, and Yan Kong. Chem. Front, 2017,1, 2065-2077. >> Fulltext Link

2016年

[1] Degradation of phenol in industrial wastewater over the F-Fe/TiO2 photocatalysts under visible light illumination. Yandong Liu, Shijian Zhou, Fu Yang, Hua Qin, Yan Kong.Chinese Journal of Chemical Engineering,2016,24(12):1712-1718. >> Fulltext Link

[2] Template-induced in situ dispersion of enhanced basic-sites on sponge-like mesoporous silica and its improved catalytic property.Fu Yang, Bangbang Wang, Shijian Zhoua, Xiaoning Yang and Yan Kong.RSC Advances,2016,6: 91968-91980. >> Fulltext Link

[3] An iron-based micropore-enriched silica catalyst: in situ confining of Fe2O3 in the mesopores and its improved catalytic properties.Saifu Long, Shijian Zhou, Fu Yang, Kangchao Lu, Tao Xi and Yan Kong. RSC Advances,2016,6(79):76064-76074. >> Fulltext Link

[4] A Facile Method for the Direct Introduction of FeOx in Mesoporous AMS Through A Templating Route (S-[MN]+I-) and its Catalytic Application. Shuying Gao, Dr. Shijian Zhou, Fu Yang, Saifu Long, Prof. Yan Kong.Chemistry Select,2016,1(7):1305-1313. >> Fulltext Link

[5] The Synergistic Effect of Bimetallic Zn-Ti in MCM-41 Support for the Improvement of Catalytic Activity. He, Huizi; Gao, Fei; Gao, Shuying; Wang, Haiqing; Liu, Xianfeng; Dong, Lin; Kong, Yan.Journal of Nanoscience and Nanotechnology,2016,16(8):7742-7749. >> Fulltext Link

[6] Aminosilane decorated carbon template-induced in situ encapsulation of multiple-Ag-cores inside mesoporous hollow silica.Fu Yang, Saifu Long, Shijian Zhou, Xiaoming Li, Xianfeng Liu, Shuying Gao and Yan Kong. RSC Advances,2016,6(37):30852-30861. >> Fulltext Link

[7] Inside Back Cover: A metal-assisted templating route (S0M+I−) for fabricating thin-layer CoO covered on the channel of nanospherical-HMS with improved catalytic properties.Fu Yang, Shijian Zhou, Haiqing Wang, Saifu Long, Xianfeng Liu and Yan Kong.Dalton Transactions,2016,45(15):6371-6382. >> Fulltext Link

[8] 常温下H2O2 氧化高浓度苯酚水溶液制备苯二酚. 席涛, 马红蕾, 张颖杰, 陈强, 孔岩.石油学报 (石油加工), 2016, 32(1): 201-206. >> Fulltext Link

2015年

[1] Improved visible light photocatalytic activity of fluorine and nitrogen co-doped TiO2 with tunable nanoparticle size. Junyang Cheng, Jin Chen, Wei Lin, Yandong Liu, Yan Kong. Applied Surface Science, 2015, 332:573–580. >> Fulltext Link

[2] Spherical V-Fe-MCM-48: The Synthesis, Characterization and Hydrothermal Stability. Wang Qian, Haiqing Wang, Jin Chen and Yan Kong. Materials, 2015, 8(4): 1752-1765.>> Fulltext Link

[3] One‐Pot Synthesis of Iron‐Containing Nanoreactors with Controllable Catalytic Activity Based on Multichannel Mesoporous Silica. Dr. Haiqing Wang, Xiaoming Li, Cuirong Xiong, Shuying Gao, Dr. Prof. Jun Wang, Dr. Prof. Yan Kong.ChemCatChem, 2015, 7(23): 3855-3864.(Inside Back Cover) >> Fulltext Link

[4] Controllable synthesis and catalytic performance of mesoporous silica nanotube micro-reactor. Haiqing Wang, Wang Qian, Shuying Gao, Jun Du, Jin Chen, Yan Kong, Jun Wang. Applied Catalysis A: General, 2015,8(504),228-237.>> Fulltext Link

[5] Coordination of manganese porphyrins on amino-functionalized MCM-41 for heterogeneous catalysis of naphthalene hydroxylation.Fu Yang, Shuying Gao, Cuirong Xiong, Haiqing Wang, Jin Chen, Yan Kong. Chinese Journal of Catalysis, 2015, 36(7): 1035-1041. >> Fulltext Link

[6] Direct templating assembly route for the preparation of highly-dispersed vanadia species encapsulated in mesoporous MCM-41 channel. Fu Yang, Shuying Gao, Cuirong Xiong, Saifu Long, Xiaoming Li, Tao Xia and Yan Kong. RSC Advances, 2015, 5(88): 72099-72106.>> Fulltext Link

[7] Three‐Dimensionally Controllable Synthesis of Multichannel Silica Nanotubes and Their Application as Dual Drug Carriers. Wang, Haiqing; Xiong, Cuirong; Li, Zheng; Kong, Yan; Chen, Jin. ChemPlusChem, 2015, 80(11): 1696-1696.( Inside Back Cover) >> Fulltext Link

2014年

[1] Synthesis, Characterization and Catalytic Activity of Nano-Spherical MCM-41 Modified with Vanadium. N. Zhao, Haixia Gao, Haiqing Wang, Huizi He, Y. Chen, Y. Kong. Nanosci. Nanotechnol. 2014, 1-7,14. >> Fulltext Link

[2] 苯酚羟基化制备苯二酚介孔分子筛催化剂的合成与改性研究. 陈强, 马红蕾, 孔庆虎, 高树英, 孔岩.石油学报(石油加工) 2014, 30(1), 134-139. >> Fulltext Link

[3] Spherical V-MCM-48:The Synthesis, Characterization and Catalytic Performance in Styrene Oxidation. Haiqing Wang, Wang Qian, Jin Chen, Yong Wu, Xiaoying Xu, Jun Wang, and Yan Kong. RSC Adv 2014, 4 (92), 50832 – 50839. >> Fulltext Link

[4] Self-assembly of the chaperonin GroEL nanocage induced at submicellar detergent. Jin Chen, Hisashi Yagi, Yuji Furutani, Takashi Nakamura, Asumi Inaguma, Hao Guo, Yan Kong & Yuji Goto, SCIENTIFIC REPORTS 2014,4,5614. >> Fulltext Link

[5] 邻苯二酚与甲醇合成愈创木酚的热力学分析. 高海霞, 孔岩. 化学工业与工程. 2014,31(4),18-21. >> Fulltext Link

2013年

[1] Synthesis of F-TiO2 Nanosheets and its Photocatalytic Oxidation of Benzene to Phenol. Hua Qin, Wei Lin, Zhi Chao Zhang, Jun Yang Cheng, Yan Kong. Advanced Materials Research 2013, 750-752, 1160. >> Fulltext Link

[2] Influences of Pore Sizes on the Catalytic Activity of Fe-MCM-41 in Hydroxylation of Phenol. Bing Han, Xiaobo Shi, Yingjie Zhang, Qinghu Kong. Asian J. Chem. 2013, 25(16), 9087-9091. >> Fulltext Link

[3] 六方相介孔SiO2孔径及壁厚调节.韩冰, 王海青, 时晓波, 孔岩.化工新型材料.2013,9,102-104. >> Fulltext Link

[4] Improvement on the mesostructural ordering and catalytic activity of Co-MCM-41 with ascorbic acid as auxiliary. Bing Han, Haiqing Wang, Yan Kong, Jun Wang. MATERIALS LETTERS. 2013, 100, 159-162. >> Fulltext Link

2012年

[1] Synthesis, characterization and catalytic activity of binary metallic titanium and iron containing mesoporous silica. Yong Wu, Yinjie Zhang, Jun Cheng, Zheng Li, Haiqing Wang, Qinglin Sun, Bing Han, Yan Kong. Microporous Mesoporous Mat. 2012; 162(0): 51-59. >> Fulltext Link

[2] Synthesis of Vanadium-mesoporous Hollow Spheres. SHI Xiao-Bo, CHEN Yu, KONG Yan, WU Cheng, WANG Jun, Journal of Inorganic Materials. 2012; 27(7): 699-704. >> Fulltext Link

[3] The Complete Control for the Nanosize of Spherical MCM-41. Yu Chen, Xiaobo Shi, Bing Han, Hua Qin, Zheng Li, Yinong Lu, Jun Wang, Yan Kong. Journal of Nanoscience and Nanotechnology. 2012; 12(9): 7239-7249. >> Fulltext Link

[4] Facile Synthesis of Spherical V-MCM-48. X.-Y. Xu, Yan Kong, Y. Chen, Nan Zhao. Chinese Journal of Inorganic Chemistry. 2012; 28(11): 2478-2484. >> Fulltext Link

[5] Effects of Diameters on the Catalytic Activity of Spherical V-MCM-41 in the Selective Oxidation of Styrene. Yu Chen, Hua Qin, Xiao Bo Shi, Yan Kong. Advanced Materials Research. 2012; 549: 137-140. >> Fulltext Link

2011年

[1] Catalytic Behaviours of MCM41 with High Content of Copper in NO+CO Reaction. Sha Li, Yuan Yang, Ying Jie Zhang, Yan Kong. Advanced Materials Research. 2011; 236-238: 1828-30. >> Fulltext Link

[2] Synthesis，Catalytic Activity and Chemical Analysis Method for Co—MCM-41 with High Cobalt Content. SUN Qing-Lin, YANG Yuan, ZHANG Ying-Jie, LI Sha, SUN Peng, KONG Yan. Chinese Journal of Inorganic Chemistry. 2011; 27(12): 2346-51. >> Fulltext Link

[3] Research progress on mesoporous molecules sieves modified with transition metal. Han Bing, An Lijuan, Kong Yan.New Chemical Materials. 2011; 39(12): 6-9. >> Fulltext Link

[4] Fabrication of a visible-light response mesoporous TiO2 membrane with superior water permeability via a weak alkaline sol-gel process. Xueping Cao, Wenheng Jing, Weihong Xing, Yiqun Fan, Yan Konga and Junhang Dong. Chemical Communications. 2011; 47(12): 3457-9. >> Fulltext Link

2009年

[1] Synthesis of Spherical Mesoporous Co-MCM-41. Peng Sun, Yan Kong, Jun Du, Xin Jie Xu, Jun Wang, Zhi Yun. Advanced Materials Research. 2009; 79-82: 131-134.>> Fulltext Link

[2] Catalytic Performance of Ti-MCM-41 for Styrene Oxidation. D. Chen, N. Li, P. Sun, Yan Kong. Chinese Journal of Catalysis. 2009; 30(7): 643-648. >> Fulltext Link

2008年

[1] Synthesis, characterization of bimetallic Ce–Fe-SBA-15 and its catalytic performance in the phenol hydroxylation. Fei Gao, Yanhua Zhang, Chunling Wang, Cheng Wu, Yan Kong, Bin Zhao, Lin Dong, Yi Chen. Microporous Mesoporous Mat. 2008; 113: 393-401. >> Fulltext Link

[2] Synthesis and Characterization of V-MCM41 with High Vanadium Content.Yan Kong, R. Zhang, X.-J. Xu, Z.-L. Wang, J. Wang. Chinese Journal of Inorganic Chemistry. 2008; 24(7): 1124-1127. >> Fulltext Link

[3] Effect of Promoters on the Catalytic Activity of MCM-41 with High Copper Content in Benzene Hydroxylation.KONG Yan, XU Xinjie, WU Yong, ZHANG Rui, WANG Jun. Chinese Journal of Catalysis. 2008;29(4):385-390. >> Fulltext Link

[4] The states of vanadium species in V-SBA-15 synthesized under different pH values. Fei Gao, Yanhua Zhang, Haiqin Wan, Yan Kong, Xingcai Wu, Lin Dong, Baiqin Li, Yi Chen. Microporous Mesoporous Mat. 2008;110:508-516. >> Fulltext Link

[5] Synthesis, characterization and catalytic performance for phenol hydroxylation of Fe-MCM41 with high iron content. Cheng Wu, Yan Kong, Fei Gao, Yong Wu, Yinong Lu, Jun Wang, Lin Dong. Microporous Mesoporous Mat. 2008; 113: 163-170. >> Fulltext Link

[6] A Highly Ordered Self-Assembly Three-Grade Porous Helical Silica Tube. Fei Gao , Lin Dong, Yan Kong, Yanhua Zhang, Xingcai Wu, Yourong Tao, Haiyang Zhu, Yinong Lü, Yi Chen. Journal of Nanoscience and Nanotechnology. 2008; 8: 1497-1501. >> Fulltext Link

2007年

[1] Catalytic performance of Cu-MCM41 with high copper content for NO reduction by CO. Yan Kong, Yanhua Zhang, Xiaoshu Wa, Jun Wang, Haiqin Wan, Lin Dong, Qijie Yan. Studies in Surface Science and Catalysis. 2007; 165: 749-753. >> Fulltext Link

[2] Hydroisomerization of n-heptane over Pt/USY catalysts promoted by Cr additive.R.-P. Wei,Y.-B. Gu, Y. Kong, J. Wang. Chinese Journal of Inorganic Chemistry. 2007; 23(3): 523-528. >> Fulltext Link

[3] Structural and catalytic investigation of mesoporous iron phosphate.Dinghua Yu, Cheng Wu, Yan Kong, Nianhua Xue, Xuefeng Guo, and Weiping Ding. Journal of Physical Chemistry C. 2007; 111(39): 14394-14399. >> Fulltext Link

[4] Synthesis, characterization of bimetallic V-Fe-SBA-15 and its catalytic performance in the hydroxylation of phenol. Fei Gao, Yanhua Zhang, Chunling Wang, Cheng Wu, Yan Kong, Bin Zhao, Lin Dong, Yi Chen. Journal of Nanoscience and Nanotechnology. 2007; 7(12): 4508-4514. >> Fulltext Link

[5] Influence of iron content on the structure and catalytic activity for the hydroxylation phenol of Fe-MCM41.Cheng Wu, Yan Kong, Xingjie Xu, Jun Wang, FeiGao, LinDong, Qijie Yan. Studies in Surface Science and Catalysis. 2007; 165: 755-759. >> Fulltext Link

2006年

[1] Catalytic Performance of Cu-MCM-41 with High Copper Content for the Direct Hydroxylation of Benzene to Phenol. Jiang Siyang; Kong Yan; Wu Cheng. Chinese Journal of Catalysis. 2006; 27(5): 421-426. >> Fulltext Link

[2] Synthesis, characterization of bimetallic Sn-Zn-MCM41 and its catalytic performance in the hydroxylation of phenol. Siyang Jiang, Yan Kong, Jun Wang, Xiaoqian Ren & Qijie Yan. Journal of Porous Materials. 2006; 12(3-4): 341-346. >> Fulltext Link

[3] Surface Structure of Intermetallic Compound SbSn Prepared by Non-equilibrium Solidification.N. Guo, Zhi Yun, Y. Kong. Chinese Journal of Inorganic Chemistry. 2006; 22(8): 1517-1520. >> Fulltext Link

[4] Synthesis of fructone over dealmuinated USY supported heteropoly acid and its salt catalysts. Fumin Zhang, Chaoshu Yuan, Jun Wang, Yan Kong, Haiyang Zhu, Chunyan Wang. Journal of Molecular Catalysis A: Chemical. 2006; 247(1-2): 130-137. >> Fulltext Link

2005年

[1] Synthesis of ordered hexagonal porous tin-doped zirconium oxides with a high surface area. Huixuan Ma, Yan Kong, Wenhua Hou, Qijie Yan. Microporous Mesoporous Mat. 2005; 77(2-3): 241-243. >> Fulltext Link

[2] Heating behavior and crystal growth mechanism in microwave field. Gang Yang, Yan Kong, Wenhua Hou, and Qijie Yan. Journal of Physical Chemistry B. 2005; 109(4): 1371-1379. >> Fulltext Link

[3] Dispersion and reduction of copper oxide supported on WO3-modified Ce0.5Zr0.5O2 solid solution. Li Xiaowei, Shen Mingmin, Hong Xi, Zhu Haiyang, Gao Fei, Kong Yan, Dong Lin, and Chen Yi. Journal of Physical Chemistry B. 2005; 109(9): 3949-3955. >> Fulltext Link

[4] Synthesis of Ti-containing MCM-41 using Ti(SO4) 2 as Ti source.Yan Kong, Xuefeng Guo, Fumin Zhang, Siyang Jiang, Jun Wang, Yinong Lu, Qijie Yan. Materials Letters. 2005; 59(24-25): 3099-3101. >> Fulltext Link

[5] Synthesis and characterization of novel super microporous tin-doped zirconium oxide. Yan Kong, Hui‐Xuan Ma, Jun Wang, Xiao‐Qian Ren, Qi‐Jie Yan. Chinese Journal of Chemistry. 2005; 23(12): 1584-1588. >> Fulltext Link

[6] Synthesis and characterization of Cu-Ti-MCM41. Yan Kong, Si-Yang Jiang, Jun Wang, Shan-shan Wang, Qi-jie Yan, Yi-nong Lu. Microporous Mesoporous Mat. 2005; 86(1-3): 191-197. >> Fulltext Link

[7] Synthesis and Characterization of MCM-41 Doped with Bimetallic Tin and Zinc. SY Jiang, CL Zhou, Yan Kong, CQ Wang, J Li, J Wang. Chinese Journal of Inorganic Chemistry. 2005; 21(12): 1831-1837. >> Fulltext Link

2004年

[1] Novel coassembly route to Cu-SiO2 MCM-41-like mesoporous materials. Xuefeng Guo, Min Lai, Yan Kong, Weiping Ding, Qijie Yan, and C. T. Peter Au. Langmuir. 2004; 20(7): 2879-2882 >> Fulltext Link.

[2] Preparation and characterization of TiO2-pillared layered HNb3O8. Xian‐Ji Guo, Wen‐Hua Hou, Yan Kong, Wei‐Ping Ding, Yi‐Ning Fan, Tian‐Yang Yao, Qi‐Jie Yan, Yi Chen. Chinese Journal of Chemistry. 2004; 22(4): 340-343. >> Fulltext Link

[3] Characterization of copper oxide supported on ceria-modified anatase. Haiyang Zhu, Mingmin Shen, Yan Kong, Jianming Hong, Yuhai Hu, Tiandong Liu, Lin Dong, Yi Chen, Can Jian, Zhong Liu. J Mol Catal A-Chem. 2004; 219(1): 155-164 >> Fulltext Link

[4] A study of CuO/CeO2/Al-Zr-O in "NO plus CO". Zhu, H; Shen, M; Gao, F; Kong, Y; Dong, L; Chen, Y; Jian, C; Liu, Z. Catalysis Communications. 2004; 5(8): 453-456. >> Fulltext Link

[5] Effect of maltose for the crystallization of tetragonal zirconia. Hai-Yang Zhu, Bin Liu, Ming-Min Shen, Yan Kong, Xi Hong, Yu-Hai Hu, Wei-Ping Ding, Lin Dong, Yi Chen. Materials Letters. 2004; 58(25): 3107-3110. >> Fulltext Link

[6] Investigation of the structure of MCM-41 samples with a high copper content. Y. Kong, H. Y. Zhu, G. Yang, X. F. Guo, W. H. Hou, Q. J. Yan, M. Gu, C. Hu. Advanced Functional Materials. 2004; 14(8): 816-820. >> Fulltext Link

2003年

[1] Synthesis of Titania-Pillared Layered Niobic Acid with a High Specific Surface Area by using Sol-Intercalation Method. X.-J. Guo, W.-H. Hou, Yan Kong, C.-L. Lu. Chinese Journal of Inorganic Chemistry. 2003; 19(3): 273-277. >> Fulltext Link