31960
中文   |   English 手机浏览
当前位置: 首页   >  成果及论文
成果及论文

                                发表论文

2024年

12. Yuan M,.; Shi S.; Chen S.; Zhang B.; Xiao W.; Chen C.; Construction of Asymmetric Filler Density Mixed-Matrix MOF Membranes via Liquid-Phase Ion Activation for Advanced Oxidation Processes. Inorg. Chem. 2024, 63, 45, 21597–21606.

11. Gao X.; Ning H.; Zeng R.; Wang L.;  Chen C.; Ding S.; Construction of CuCoCe ternary catalyst via a porous organic polymer template approach for efficient CO-PROX with wide operating temperature window.Applied Surface Science 2025, 681, 161530.

10. Li S.; Zhang, B.; Yang Y.; Zhu F.; Zhao D.; Shi S.; Wang S.; Ding S.; Chen C.; Insights into the Acidic Site in Manganese Oxide in Terms of the Sulfur and Water Tolerance of Low-Temperature NH3 Selective Catalytic Reduction.Langmuir 2024, 40, 28, 14504–14514.

9. Cao H,.; Shi S.; Peng H.; Hu J.; Liao S.; Wang S.; Chen C.; Achieving Enhanced Fire Safety of Polyvinyl Chloride Through Rapid Catalytic Carbonization Using a Triple-effect Flame Retardant of Mg(OH)2-ZnO-TiO2.DOI: 10.1007/s40242-024-4098-1 

8. Yang Y.; Zhu F.; Li S.; Zhao D.; Ding S.; Wang S.; Shi S.; Chen C.;Microenvironment tailoring mediated highly dispersed Mn-O-Ce interface for low-temperature NH3-SCR of NOx. Applied Surface Science,2024 669 160514.

7. Yuan M .; Chen, S.;  Zhang, B.; Liu,J.; Ding,S.; Wang,S.; Xiao,W.; Shi,S.; Chen,C. Electro-driven multi-functional catalysis separation membrane reactor with switchable wettability for efficient water purification.J. Mater. Chem. A, 2024,12, 16667-16676

6. Zhu ,Y.; Zhang, B.; Shi ,S.; Bo ,Z.; Yuan ,M.,  Xu, Y.; Xiao,W.; Wang, S.; Chen,C. Targeted electron transfer effect of enzyme-like Co-NX catalysts for enhanced C = O hydrogenation. Chemical Engineering Journal, 2024, 488, 151199.

5. Zhang ,B.; Chen,J.; Li ,Y.; Zhu, Y.;  Li ,S.; Zhu ,F.;  Gao ,X.; Li ,S.; Wang,S.; Xiao,W.;  Shi ,S.; Chen,C.Engineering of Pore Design and Oxygen Vacancy on High-Entropy Oxides by a Microenvironment Tailoring Strategy.Inorganic Chemistry. 2024, 63, 12, 5689–5700.

4. Liu, S.;Wang, W.;Shi,S.; Liao, S.; Zhong,M.;  Xiao, W.; Wang, S.; Wang, X.; Chen,C. Hydrogen-bonded organic framework derived ultra-fine ZnCdS/ZnS heterojunction with high-porosity for efficient photocatalytic hydrogen production. Applied Surface Science. 2024, 657, 159795.

3. Zhang ,B.; Li ,Y.; Zhu, Y.; Zhu ,F.; Liao ,S.; Gao ,X.; Li ,S.; Yang ,Y.; Xiao ,W.; Shi ,S.; Chen,C. Manganese/CaCO3-based dual functional catalyst facilitating basic catalysis activity and stability for the selective oxidation of aromatics. Applied Surface Science. 2024, 654, 159522.

2. Chen,J.; Zhang,B.;Shi, S.; Zhu, Y.;Li, Y.;Gao,X.; Cao,H.; Chen,R.; Xiao,W.; Wang,S.; Zhang,P.;Shu,Y.; Chen,C. Microenvironment tailoring mediated oxygen-vacancy defect engineering strategy facilitating O2 and alcohol activation on HEOs with superior catalytic efficiency. Applied Surface Science.2024, 648, 158984

 1. Yuan, M.; Liu, J.; Zhu, Y.; Zhang, B.; Xiao, W.; Wang, S.; Shi, S.;Chen, C., Ultra-high flux catalytic membrane reactors based on coagulation-flocculation mechanism for selective catalytic. Journal of Membrane Science. 2024, 690, 122244

2023年

17.  Li,S.; Zhao,D.; Shi,S.; Zhu, F.; Yang, Y.; Wang, S.; Ding, S.;Chen,C. Gas-Expanded Pore MOF Derived Sm/MnOx Catalysts Enable Ultralow-Temperature Selective Catalytic Reduction of NOx. Journal of Environmental Chemical Engineering.  2023, 11,6,111559

16.   Lin,Y.; Wang,L.;  Chi,J.;  Peng,H.;  Gao,X.;  Zhang,B.; Wang,S.; Chen,C.;  Zhang, N.;Hong,S. Cu-Embedded CeO2 Nanotubes as CO2–Resistant Catalysts for Preferential CO Oxidation in H2-Rich Streams. ACS Appl. Nano Mater. 2023, 6, 24, 23477–23487

15.   Zhong, M.; Xia, S.; Liu, S.; Jin, C.; Deng, S.; Xiao, W.; Ding, S.; Chen, C., Two Novel Nitrogen-rich Metal-organic Nanotubes: Syntheses, Structures and Selective Adsorption toward Rare Earth. Dalton Trans., 2023,52, 17846-17853.

14.   Zhang, B.; Deng, D.; Chen, J.; Li, Y.; Yuan, M.; Xiao, W.; Wang, S.; Wang, X.; Zhang, P.; Shu, Y.; Shi, S.; Chen, C., Defect Engineering of High-Entropy Oxides for Superior Catalytic Oxidation Performance.ACS Applied Materials & Interfaces. 2023, 15, 45, 52705-52715

13.   Zhang, B.; Chen, J.; Li, Y.; Zhu, Y.; Yang, Y.; Liao, S.; Xiao, W.; Wang, S.; Zhang, P.; Shu, Y.; Shi, S.; Chen, C., Flowerlike Nanosheet-Based High-Entropy Oxides as Catalysts for Aerobic Oxidation of Benzyl Alcohol. ACS Applied Nano Materials. 2023, 6, 21, 20310-20319.

12.   Liu, S.; Yang, Y.; Zhong, M.; Li, S.; Shi, S.; Xiao, W.; Wang, S.; Chen, C., Constructing an efficient electrocatalyst for water oxidation: an Fe-doped CoO/Co catalyst enabled by in situ MOF growth and a solvent-free strategy. Dalton Trans., 2023,52, 15928-15934.

11.   Zhu, Y.; Luo, Y.;Zhu, F.; Liang, Q.; Yuan, M.; Zhang, B.; Shi, S.; Wang, S.; Chen, C., Highly-selective Pt/PAA@MIL-125 Catalyst for Hydrosilylation of γ-(2,3-epoxypropoxy) trimethoxysilane. Chemical Research In Chinese Universities.  2023, 39(6), 1077-1083


10.    Zhang, B.; Zhu, Y.; Shi, S,; Li, Y.; Luo, Y.; Huang, Z.; Xiao, W.; Wang, S.; Zhang, P.; Shu, Y.; Chen, C., Embedding Hierarchical Pores by Mechanochemistry in Carbonates with Superior Chemoselective Catalysis and Stability. Inorganic Chemistry. 2023, 62, 32, 12920-12930.

9.   Wan, L.; Yuan, M.; Xiong, G.; Shi, S.; Xiao, W.; Chen, C.; Ai, F., Penetrating Honeycomb Structured MOF Flexible Membrane with Ultra-high Flux and Excellent Catalytic Activity. Journal of Industrial and Engineering Chemistry. 2023, 125, 294-302.

8.   Jin, C.; Shi, S.; Liao, S.; Liu, S.; Xia, S.; Luo, Y.; Wang, S.; Wang, H.; Chen, C., Post-Synthetic Ligand Exchange by Mechanochemistry: towards Green, Efficient and Large-scale Preparation of Functional Metal-Organic Frameworks. Chemistry of Materials. 2023, 35, 4489-4497.

7.   Liu, S.; Yang, Y.; Xiao, W.; Xia, S.; Jin, C.;Wang, W.; Li, S.; Zhong, M.; Wang, S.; Chen, C., Metal-organic frameworks derived porous MoS2/CdS heterostructure for efficient photocatalytic performance towards hydrogen evolution and organic pollutants. International Journal of Hydrogen Energy. 2023,48,84, 32729-32738.

6.   Chen, C.; Zhao, C.; Zhao, D.; Ding, S.;Chen, C.,The Importance of Constructing Tripie-functional Sr2P2O7/Ni2P Catalysts for Smoothing Hydrogenation Ring-rearrangment of Biomass-derived Furfural Compounds in Water. Journal of Catalysis. 2023, 421, 117-133.

5.   Wang, W.; Xiao, W.; Zhu, Y.; Liu S.; Wang, S.; Chen, C., Fabrication of a highly dispersed Co3O4-modified MOF-derived ZnO@ZnS porous heterostructure for efficient photocatalytic hydrogen production. CrystEng Comm. 2023, 25, 1358-1364.

4.   Wang, L.; Peng, H.; Shi, S.; Li, S.; Ding, S.; Zhao, D.; Wang, S.; Chen, C., Microwave non-thermal fusion of MOFs derived Cu-O-Ce interface for boosting CO preferential oxidation. Applied Surface Science. 2023, 610, 155466.

3.   Li, L.; Zheng, J.; Yu, J.; Liu, S.; Xiao, W.; Mao, X.; Deng, S.; Ding, S.; Chen, C., A facile and sustainable approach for the preparation of Pd/ZIF-8 nearly without waste emission. Materials Letters. 2023, 333, 133706.

2.  Wang, L.; Peng, H.; Li, S.; Shi, S.; Ding, S.; Zhao, D.; Wang, S.; Chen, C., Fine-tuning Cu–Co–Ce oxidation activity interface by unique microwave electromagnetic loss for boosting CO preferential oxidation in H2 steam. International Journal of Hydrogen Energy. 2023, 48,  64, 29 , 25119-25132.

1.   Ding, S.; Cheng, D.; Xiao, W.; Ma, X.; Zeng, R.; Liu, S.; Liang, S.; Chen, C.; Song, W., Nickel Nanoparticles Encapsulated in Carbon Nanotubes as an Efficient and Robust Catalyst for Hydrogenation of Nitroarenes. Catalysis Letters. 2023, 153, 595-604.








2022年


16.   Jiang, X.; Zhao, D.; Chen, J.; Li, W.; Li, K.; Chen, C., The Synergistic Photocatalytic Effect of H3PW12O40 and Pt Nanoparticles Comodified UiO-66-NH2 on the Reduction of Aqueous Cr(VI) under Original pH. Kinetics and Catalysis. 2022, 63, 470-479.pages

                                       

15.   Xu, M.; Xu, Y.; Liu, Y.; Zhao, D.; Ding, S.; Chen,C., NiyCo2-yP alloy catalysts with assistance of Y for boosting Low-pressure hydrogenation transformation of Biomass-derived levulinic acid or furfural in water. Applied Surface Science. 2022, 601, 154142.

14.   Wu, S.; Su, T.; Liu, S.; Cheng, D.; Zeng, R.; Ma, X.; Liang, S.; Ding, S.; Chen, C., Charge Modified Porous Organic Polymer Stabilized Ultrasmall Platinum Nanoparticles for the Catalytic Dehydrogenative Coupling of Silanes with Alcohols. Catalysis Letters. 2022, 152, 1711-1718.


13.   Liu, S.; Shi,S.; Ding, S.; Xiao, W.; Wang, H.; Zhao, D.; Chen, C.; Song, W., Imidazole Functionalized Porous Organic Polymer Stabilizing Palladium Nanoparticles for the Enhanced Catalytic Dehydrogenative Coupling of Silanes with Alcohols, Chemistryselect. 2022,7(40): e202203056.

12.  Zhang, B.; Li, M.; Lei, H.; Chen, J.;Wang, S.; Chen, C., Combining shell confinement and outside decoration to boost the selectivity of Pt nanocatalysts in hollow-flower like Zr-MOFs double shell micro-reactor for hydrogenation cinnamaldehyde to unsaturated alcohol, Applied Surface Science. 2022, 599, 153899.

11.   Liu, S.;Xiao, W.;Jin, C.;Xia, S.;Wang, W.;Jiang, X.;Li, L.;Wang, S.;Chen, C.,MOFs derived CdS/CdO heterojunction photoanode for high-efficient water splitting, Applied Surface Science. 2022, 605, 154687. 

10.   Liang, S.;Shi, S.;Ding, S.;Xiao, W.;Wang, H.;Wang, S;Zeng, R.;Chen, C.;Song, W.,Construction of a transition-metal-free mesoporous organic phenanthroline-based polymeric catalyst for boosting direct activation of aromatic C-H bonds, Catalysis Science and Technology. 2022, 12, 6650-6654.

9.   Yu, Y.;Wan, L.;Cheng, W.;Shi, S.;Yuan, M.;Luo,Y.;Mei, L.;Xu, T.;Wang, S.;Zhao, D.;Xiao, W.;Ai, F.;Fang, Q.;Chen, C.,Self-Stirring Microcatalysts: Large-Scale, High-Throughput, and Controllable Preparation and Application.Inorganic Chemistry. 2022, 61, 30, 11757-11765

8.    Jin, C.;Chen, Z.;Shi, S.;Li, Y.;Liu, S.;Wang, S.;Wang, H.;Chen, C.,Green and Large-Scale Preparation of Chiral Metal-Organic Frameworks via Mechanochemistry.Inorganic Chemistry. 2022. 61, 31, 12190-12196.

7.    Xu, M.; Jia, X.; Zhao, D.; Zhao, C.; Ke, H.; Chen, C., Modification of Ni2P with LaPO4 for efficiently photocatalytic and electrocatalytic production of green-H2. Catalysis Today.  2022. 402, 310-318.

6.    Wang, L.; Peng, H.; Xie, W.; Shi, S.; Yuan, M.; Zhao, D.; Wang, S.; Chen, C., Microwave pyrolysis-engineered MOFs derivatives for efficient preferential CO oxidation in H2-rich stream. Chemical Engineering Science. 2022, 256, 117675.

5.    Wang, L.; Peng H.; Shi, S.; Hu, Z.; Zhang, B.; Ding, S.; Wang, S.; Chen, C., Metal-organic framework derived hollow CuO/CeO2 nano-sphere: To expose more highly dispersed Cu-O-Ce interface for enhancing preferential CO oxidation. Applied Surface Science. 2022, 573, 151611.

4.    Yuan, M.; Shi, S.; Luo, Y.; Yu, Y . ; Wang, S. ; Chen, C ., Fabrication of Mesoporous SiO2@CaSiO3 Hollow Spheres as Carriers for pH-sensitive Drug Delivery. Chemical Research in Chinese Universities. 2022, 38, 999-1004.

3.   Shen, X.; Li, W.; Ding, Shun.; Ma, Xiao.; Wu, Shao.; Xiao, W.; Zeng, Rong.; Hong, san.; Chen, Chao., Construction of mesoporous ceria-supported gold catalysts with rich oxygen vacancies for efficient CO oxidation. Journal of Rare Earths. 2022, 40, 434-442.


 2. Jiang, X.; Liu, S.; Wang, W.; Shi, S.; Zeng, Z.; Chen, C., Enhanced Singlet Oxygen Generation in PCN-224-Zn without the Need of Electron-Hole Separation for Efficient Photocatalytic Water Disinfection. Applied Surface Science. 2022, 575, 151769


1. He, X.; Dai B.; Zhang Y.; Zhao D.; Zhang D.; Liang R.; Chen C., Unique Capability of NdPO4 to Activate Hydrogen for Efficient Hydrogenation of Furfural to Furfuryl Alcohol over Nd-Co-P Composites. Journal of Rare Earths. 2022, 40(7): 1073-1082.


2021年

7.    Yu, Y.; Zhong, Y.; Xie, D.; Luo, G.; Mao, Y.; Yuan, M.; Xiao, W.; Wang, S.; Chen, C., Fe3O4 Nanorods Coated with ZIF-8 and Decorated with Pt Nanoparticles as Magnetically Actuated Nanoscale Stirring Bars for Catalytic Dye Degradation, H2 Production, and Hydrogenation of Olefins.ACS Applied Nano Materials. 2021, 4, 10999−11006.

6.    Shi, S. ; Yu, Y.; Zhang, B. ; Zhong, Y.; Wang, L.; Wang, S.; Ding, S.; Chen, C., Step by Step Construction of Multifunctional Hollow Double Shell MNPs@MOF as a Powerful Tandem/Cascade Catalyst. Frontiers in Chemistry. 2021, 9, 738736.

5.    Shi, S. ; Zhong, Y. ; Hu, Z.; Wang, L.; Yuan, M.; Ding, S.; Wang, S.; Chen, C., Chiral Yolk-Shell MOF as an Efficient Nanoreactor for Asymmetric Catalysis in Organic-Aqueous Two-Phase System. Inorganic Chemistry. 2021, 60, 12714-12718.

4.    Zhang, Y.; Dai, B.; Zhao, D.; Zhang, D.; Xu, M.; He, Xiang.; Chen, C., Promotion effects of PrPO4 for the hydrogenation transformation of biomass-derived compounds over Pr–Ni–P composites. Materials Advances. 2021, 2, 3927-3939.

 

3.    Wang, G.; Geng, J.; Qi, X.; Du, T.; Zeng, Y.; Yu, R.; Yuan, M.; Peng, H.; Li, H.; Chen, C., Rheological performances and enhanced sedimentation stability of mesoporous Fe3O4 nanospheres in magnetorheological fluid. Journal of Molecular Liquids. 2021, 336, 116389.

   2.    Chen, Z.;  Yan, X.;  Li, M.;  Wang, S.;  Chen, C., Defect-Engineered Chiral Metal-Organic Frameworks for Efficient Asymmetric Aldol Reaction. Inorganic chemistry. 2021, 60 , 4362-4365.

1.    Liao, L. ;  Jia, X. ;  Lou, H. ;  Zhong, J. ;  Liu, H. ;  Ding, S.;  Chen, C. ;  Hong, S.;  Luo, X., Supramolecular gel formation regulated by water content in organic solvents: self-assembly mechanism and biomedical applications. RSC Advances 2021, 11, 11519-11528.

2020

7.    Hu, Z.;  Shi, S.;  Wang, L.;  Chen, S.;  You, Y.;  Wang, S.;  Chen, C., MOF-derived AgCo alloy nanoparticle protected by mesoporous carbon as chemoselective catalyst for hydrogenation of citral. Applied Surface Science 2020, 528, 146992.

6.    Liao, L.;  Zhong, X.; Jia, X.;  Liao, C.;  Zhong, J.;  Ding, S.;  Chen, C.;  Hong, S.; Luo, X., Supramolecular organogels fabricated with dicarboxylic acids and primary alkyl amines: controllable self-assembled structures. RSC Advances. 2020, 10, 29129-29138.

5.     Mao, Y.;  Wang, Q.;  Yu, L.;  Qian, H.;  Deng, S.;  Xiao, W.;  Zhao, D.;  Chen, C., A 2-Fold Interpenetrated Nitrogen-Rich Metal-Organic Framework for Rapid and Selective Adsorption of Congo Red. Inorganic Chemistry. 2020, 12, 8213-8219.

4.     Zhu, Y.;  Jiang, X.;  Lin, L.;  Wang, S.;  Chen, C., Fabrication of ZnS/CdS Heterojunction by Using Bimetallic MOFs Template for Photocatalytic Hydrogen Generation. Chemical Reserch in Chinese Universities. 2020, 36, 1032-1038.

3.     Zhang, Z.;  Peng, X.;  Zhang, Z.;  Xiao, W.;  Deng, S.;  Mao, X.;  Hong, S.;  Chen, C.;  Zhang, N., A Comparative Study on the Structure and Catalytic Performance of UiO-66 Supported Pt Nanocatalysts Prepared by NaBH4 and H2 Reduction: Light-Off, Durability and Mechanism for CO Oxidation. Journal of Inorganic and Organometallic Polymers and Materials. 2020, 11, 4350-4360.

2.     Ding, S.;  Sun, L.;  Ma, X.;  Cheng, D.;  Wu, S.;  Zeng, R.;  Deng, S.;  Chen, C.;  Zhang, N., Microporous Polymeric Spheres as Highly Efficient and Metal-Free Catalyst for the Cycloaddition of CO2 to Cyclic Organic Carbonates at Ambient Conditions. Catalysis Letters. 2020, 10, 2970-2977.

1.    Liu, Y.;  Zhang, D.;  Li, X.;  Deng, S.;  Zhao, D.;  Zhang, N.;  Chen, C., Construction of highly-dispersed and composition-adjustable CoxN in stable Co@CoxN@C nanocomposite catalysts via a dual-ligand-MOF strategy for the selective hydrogenation of citral. Applied Surface Science. 2020, 505, 144387.

2019

9.    Li, W.;  Shen, X.;  Zeng, R.;  Chen, J.;  Xiao, W.;  Ding, S.;  Chen, C.;  Zhang, R.;  Zhang, N., Constructing copper-ceria nanosheets with high concentration of interfacial active sites for enhanced performance in CO oxidation. Applied Surface Science. 2019, 492, 818-825.

8.     Hu, Z.;  Luo, R.;  Wang, S.;  Zhang, N.;  Chen, C., Two Metal-Organic Coordination Polymer for Fluorescence Detection of 4-Nitrophenol. Chinese Journal of Inorganic Chemistry. 2019, 9, 1586-1592.

7.    Zhong, Y.;  Mao, Y.;  Shi, S.;  Wan, M.;  Ma, C.;  Wang, S.;  Chen, C.;  Zhao, D.; Zhang, N., Fabrication of Magnetic Pd/MOF Hollow Nanospheres with Double-Shell Structure: Toward Highly Efficient and Recyclable Nanocatalysts for Hydrogenation Reaction. Acs Applied Materials & Interfaces. 2019, 35, 32251-32260.

6.    Liu, X.-R.;  Ma, R.-n.;  Zhao, D.;  Chen, C.; Zhang, N., Construction of a Highly-Dispersed and Efficient Charge-Separation-Transferring Interface by Oxidatively-Bonding Rh in Cu2O Surface for Dye Photodegradation. Journal of Physical Chemistry C. 2019, 18, 11611-11620.

5.    Lin, L.;  Huang, S.;  Zhu, Y.;  Du, B.;  Zhang, Z.;  Chen, C.;  Wang, X.; Zhang, N., Construction of CdS/MoS2 heterojunction from core-shell MoS2@Cd-MOF for efficient photocatalytic hydrogen evolution. Dalton Transactions. 2019, 48, 2715-2721.

4.    Lian, W.;  Chen, B.;  Xu, B.;  Zhang, S.;  Wan, Z.;  Zhao, D.;  Zhang, N.; Chen, C., Acquiring Clean and Highly Dispersed Nickel Particles (ca. 2.8 nm) by Growing Nickel-Based Nanosheets on Al2O3 as Efficient and Stable Catalysts for Harvesting Cyclohexane Carboxylic Acid from the Hydrogenation of Benzoic Acid. Industrial & Engineering Chemistry Research. 2019, 8, 2846-2856.

3.    Li, X.;  Zhang, Z.;  Xiao, W.;  Deng, S.;  Chen, C.; Zhang, N., Mechanochemistry-assisted encapsulation of metal nanoparticles in MOF matrices via a sacrificial strategy. Journal of Materials Chemistry A. 2019, 7 14504-14509.

2.    Fu, L.;  Luo, R.;  Wang, S.;  Zhang, N.; Chen, C., Synthesis of Novel Cd (II) Metal-organic Framework for Highly Selective Detection of p-Nitroaniline. Chemical Journal of Chinese Universities-Chinese. 2019, 3, 419-424.

1.    Ding, S.;  Qu, B.;  Li, Y.;  Sun, L.;  Wu, S.;  Zeng, R.;  Xu, M.;  Chen, C.; Zhang, N., Meso-macroporous organic polymer-supported homogeneously dispersed small Pd nanoparticles obtained by a simple ion-exchange approach for the Heck reaction. New Journal of Chemistry. 2019, 43, 14674-14677.

2018

4.   Yan, X.; Wang, K.; Xu, X.; Wang, S.; Ning, Q.; Xiao, W.; Zhang, N.; Chen, Z.; Chen, C., Brønsted Basicity in Metal-Organic Framework-808 and Its Application in Base-Free Catalysis. Inorganic Chemistry .2018, 57, 14, 8033-8036.

3.    Zhang, X.;  Chen, Z.;  Yang, X.;  Li, M.;  Chen, C.; Zhang, N., The fixation of carbon dioxide with epoxides catalyzed by cation-exchanged metal-organic framework. Microporous and Mesoporous Materials. 2018, 258, 55-61.

2.    Yan, X.;  Wang, K.;  Xu, X.;  Wang, S.;  Ning, Q.;  Xiao, W.;  Zhang, N.;  Chen, Z.; Chen, C., Bronsted Basicity in Metal-Organic Framework-808 and Its Application in Base-Free Catalysis. Inorganic Chemistry. 2018, 14, 8033-8036.

1.    Liu, X.;  Li, X.;  Qian, H.;  Chi, J.;  Chen, B.;  Wang, S.;  Chen, C.; Zhang, N., Preferential CO oxidation over CuO-CeO2 catalyst synthesized from MOF with nitrogen-containing ligand as precursor. International Journal of Hydrogen Energy. 2018, 52, 23299-23309.

2017

3.    Wan, M.;  Zhang, X.;  Li, M.;  Chen, B.;  Yin, J.;  Jin, H.;  Lin, L.;  Chen, C.; Zhang, N., Hollow Pd/MOF Nanosphere with Double Shells as Multifunctional Catalyst for Hydrogenation Reaction. Small. 2017, 13, 1701395.

2.    Song, L.;  Zhang, X.;  Chen, C.;  Liu, X.; Zhang, N., UTSA-16 as an efficient microporous catalyst for CO2 conversion to cyclic carbonates. Microporous and Mesoporous Materials. 2017, 241, 36-42.

1.    Chen, D.;  Luo, R.;  Li, M.;  Wen, M.;  Li, Y.;  Chen, C.; Zhang, N., Salen(Co(III)) imprisoned within pores of a metal-organic framework by post-synthetic modification and its asymmetric catalysis for CO2 fixation at room temperature. Chemical Communications. 2017, 79, 10930-10933.

2016

8.    Wang, K.;  Xu, L.;  Chen, H.;  Qiao, H.;  Chen, C.; Zhang, N., Hydrogenation of 4-Nitrophenol over MIL-101 Confinement Au Nanoparticles Catalyst. Chemical Journal of Chinese Universities-Chinese. 2016, 37, 723-727.

7.    Song, L. L.;  Chen, C.;  Luo, F.;  Huang, S. Y.;  Wang, L. L.; Zhang, N., Isoreticular MOFs functionalized in the pore wall by different organic groups for high-performance removal of uranyl ions. Journal of Radioanalytical and Nuclear Chemistry. 2016, 310, 317-327.

6.    Song, L.;  Chen, C.;  Chen, X.; Zhang, N., Isomorphic MOFs functionalized by free-standing acylamide and organic groups serving as self-supported catalysts for the CO2 cycloaddition reaction. New Journal of Chemistry. 2016, 40, 2904-2909.

5.    Song, L.;  Chen, C.;  Chen, X.; Zhang, N., Basic Catalytic Performance of Amino and Acylamide Functionalized Metal-organic Framework in the Synthesis of Chloropropene Carbonate from CO2 Under Atmospheric Pressure. Chemical Research in Chinese Universities. 2016, 32, 838-842.

4.   Liu, H.;  Wang, Z.;  Chen, H.;  Zhang, R.;  Chen, C.; Zhang, N., Post-synthetic Modification of UMCM-1-NH2 as a Catalyst to Prepare beta-Amino Alcohols. Chemical Journal of Chinese Universities-Chinese. 2016, 37, 2012-2017.

3.    Kou, B.-Y.;  Chen, C.;  Chi, J.;  Chen, H.-Z.; Zhang, N., Cu2O@IIKUST-1 Core-Shell Structure Materials: Preparation and Antioxidant Capacity. Chinese Journal of Inorganic Chemistry. 2016, 32, 1149-1153.

2.    Chen, C.; Zhang, N., New approach to synthesis of CuO/CeO2 catalysts by metal organic frameworks (MOFs) precursor for preferential CO oxidation. Abstracts of Papers of the American Chemical Society. 2014, 472, 666-670.

1.    Chen, C.;  Shen, P.;  Wan, M.;  Ding, N.;  Shi, X.;  Wang, X.; Zhang, N., Size-selective epoxidation of olefins in two new metal-organic framework constructed from six-coordinated tetranuclear Cu(II) SBUs. Microporous and Mesoporous Materials. 2016, 232, 167-173.

2015

2.    Yin, J.;  Ding, S.;  Zeng, L.;  Xia, H.;  Chen, C.; Zhang, N., Functionalized Graphene Oxide Supported Pd Nanoparticles Catalyzed Heck Coupling Reaction. Chemical Journal of Chinese Universities-Chinese. 2015, 36 , 720-724.

1.   Chen, C.;  Wang, R.;  Shen, P.;  Zhao, D.; Zhang, N., Inverse CeO2/CuO catalysts prepared from heterobimetallic metal organic framework precursor for preferential CO oxidation in H-2-rich stream. International Journal of Hydrogen Energy. 2015, 40, 4830-4839.

2014

6.    Wang, S.;  Xu, L.;  Shen, P.;  Chen, C.; Zhang, N., New Approach to Synthesis of CuO/CeO2 Catalysts for Preferential CO Oxidation. Applied Mechanics and Materials. 2014, 472, 666-670.

5.    Wang, S.;  Wang, P.;  Li, P.;  Zhang, N.; Chen, C., Postsynthetic Modification of UMCM-1-NH2 and Fluorescence Recognition for Magnesium. Chemical Journal of Chinese Universities-Chinese. 2014, 12, 2499-2504.

4.    Wang, S.;  Hu, H.;  Chen, C.;  Ma, R.; Zhang, N., Lanthanide Metal-organic Frameworks Constructed from Evolution of a C-3 Symmetry Ligand Syntheses, Structures and Luminescent Properties. Chemical Journal of Chinese Universities-Chinese. 2014, 35, 2055-2060.

3.    Wang, R.;  Chen, C.;  Deng, S.;  Shen, P.;  Gong, L.; Zhang, N., Improvent Of Preferental Co Oxidation Activity Over CuO/Co3O4-CeO2 Catalysts: Effect Of Co/Ce Ratio. Journal of the Chilean Chemical Society. 2014, 4, 2710-2716.

2.    Rao, F.;  Deng, S.;  Chen, C.; Zhang, N., Graphite oxide-supported Karstedt catalyst for the hydrosilylation of olefins with triethoxysilane. Catalysis Communications. 2014, 46, 1-5.

1.    Chen, C.;  Zhang, J.;  Li, G.;  Shen, P.;  Jin, H.; Zhang, N., Two coordination polymers constructed from a multidentate carboxylic acid ligand with a tertiary amine serve as acid-base catalysts for the synthesis of chloropropene carbonate from CO2 under atmospheric pressure. Dalton Transactions. 2014, 37, 13965-13971.

2013

5.    Zhang, F.;  Chen, C.;  Xu, L.; Zhang, N., Thermal Decomposition Investigation of Zn4O(NH2-BDC)3 (IRMOF-3) and NH2-BDC by in situ DRIFTS. Asian Journal of Chemistry. 2013, 25, 1937-1941.

4.    Xu, L.;  Chen, C.;  Wang, R.;  Luo, J.-H.;  Liu, Y.-L.; Zhang, N., Preparation of CuO/CeO2 Catalysts from Metal-organic Frameworks Precursor for Preferential CO Oxidation. Chemical Journal of Chinese Universities-Chinese. 2013, 34, 1907-1912.

3.    Wu, D.;  Chen, C.;  Deng, S.;  Ding, S.;  Peng, Y.; Zhang, N., Synthesis of Ethyl Tert-Butyl Ether with Tert-Butyl Alcohol and Ethanol on a H2SO4 Activated Bentonite. Journal of Molecular Catalysis. 2013, 27, 413-419.

2.    Wan, Y.;  Chen, C.;  Xiao, W.;  Jian, L.; Zhang, N., Ni/MIL-120: An efficient metal-organic framework catalyst for hydrogenation of benzene to cyclohexane. Microporous and Mesoporous Materials. 2013, 171, 9-13.

1.    Shen, P.;  Chen, C.;  Wang, R.;  Jiang, W.; Zhang, N., CuO/CeO2 Catalysts Prepared by Iodic Acid Improved Sol-gel Method for Preferential CO Oxidation. Chemical Journal of Chinese Universities-Chinese. 2013, 11, 2580-2586.

2012

4.    Zhang, F.;  Chen, C.;  Xiao, W.;  Xu, L.; Zhang, N., CuO/CeO2 catalysts with well-dispersed active sites prepared from Cu3(BTC)2 metal-organic framework precursor for preferential CO oxidation. Catalysis Communications. 2012, 26, 25-29.

3.    Zhang, C.;  Chen, C.;  Liu, S.; Zhang, N., Modulated assembly of interdigitated 1D isolated tube and 2D highly undulating layer based on N-donor ligand and multidentate carboxylic acid. Inorganic Chemistry Communications. 2012, 20, 18-22.

2.    Yuan, R.;  Chen, C.; Zhang, N., Targeted Highly-Thermostable Metal-Organic Frameworks Directed by Imidazole: Syntheses, Structures, Thermal Behaviors and Luminescent Properties. Journal of Inorganic and Organometallic Polymers and Materials. 2012, 22, 507-513.

1.    Xiao, W.;  Chen, C.;  Sun, B.; Zhang, N., Crystal structure of 1,4-diazoniabicyclo 2.2.2 octane 3,3 '-dicarboxy-biphenyl-4,4 '-dicarboxylate dihydrate, C6H14N2 C16H8O8 center dot 2H2O. Zeitschrift Fur Kristallographie-New Crystal Structures. 2012, 2, 151-152.

2011

5.    Qian, X.;  Zhang, N.;  Xu, M.; Chen, C., The study on a mixed-phase I-N-TiO2 for the treatment of azithromycin wastewater under visible light. Journal of Materials Science. 2011, 46, 1147-1152.

4.    Ma, R.;  Chen, C.;  Sun, B.;  Zhao, X.; Zhang, N., A new 3D metal-organic framework with (4,8)-connected AlB2 topology constructed from coordinated evolution of a C-3 symmetry ligand. Inorganic Chemistry Communications. 2011, 14, 1532-1536.

3.    Jian, L.;  Chen, C.;  Lan, F.;  Deng, S.;  Xiao, W.; Zhang, N., Catalytic activity of unsaturated coordinated Cu-MOF to the hydroxylation of phenol. Solid State Sciences. 2011, 13, 1127-1131.

2.    Chen, L.;  Wang, S.;  Chen, C.; Zhang, N., Catalytic partial oxidation of methanol over Au-Pd bimetallic catalysts: a comparative study of SBA-16, SBA-16-CeO2, and CeO2 as supports. Transition Metal Chemistry. 2011, 36, 387-393.

1.    Ao, Z.;  Zhang, N.;  Jian, L.;  Fu, Q.;  Zhang, F.; Chen, C., Synthesis of Dimethyldichlorosilane by Catalytic Disproportionation of Methyltrichlorosilane Over A H2SO4 Activated Chinese BentoniteMaterials Advances. Phosphorus Sulfur and Silicon and the Related Elements. 2011, 10, 2135-2144.

2010

3.    Zhang, Z.;  Chen, C.;  Ao, Z.;  Chen, L.; Zhang, N., AlCl3-Grafted MCM-41 as a New Catalyst for the Catalytic Cleavage of the Si-Si Bond of Methylchlorodisilanes to Methylchloromonosilanes. Phosphorus Sulfur and Silicon and the Related Elements. 2010, 11, 2355-2361.

2.    Xiao, W.;  Chen, C.;  Deng, S.;  Mao, X.;  Sun, B.; Zhang, N., Supramolecular assembly of H(4-n)BPTCn-with pipzH22+: 1D negatively charged rectangular tubes and a 2D neutral fes 4.8(2) network. Crystengcomm. 2010, 12, 2011-2013.

1.    Liu, Z.;  Zhang, N.;  Hong, S.;  Chen, C.;  Luo, D.; Wu, H., New insights on dimolecular hydrogen-bond interactions among C3N3(NH2)3, C(O)NH 3 and H2O. Computers and Applied Chemistry. 2010, 27, 1235-1241.

2009

5.    Xiao, W.;  Zhang, N.;  Deng, S.;  Mao, X.; Chen, C., A Hydrogen-Bonded Framework Complex without Lattice Solvents: Synthesis Reversible Crystal-to-Amorphous Transformation and Chromic Properties. Zeitschrift Fur Anorganische Und Allgemeine Chemie. 2009, 635, 1511-1513.

4.    Sheng-Jun, D.;  Ning, Z.;  Chao, C.;  Wei-Ming, X.;  Meng, H. U.; Qiong, Y., Solvothermal Synthesis, Structures and Spectroscopic Properties of Two Chalcanthite Derivatives. Chinese Journal of Applied Chemistry. 2009, 26, 686-691.

3.    Luo, D.;  Chen, C.;  Zhang, N.;  Hong, S.;  Wu, H.; Liu, Z., Characterization and DFT Research of Nd/TiO2: Photocatalyst for Synthesis of Methanol from CO2 and H2O. Zeitschrift Fur Physikalische Chemie. 2009, 223, 1465-1476.

2.    Deng, S.;  Zhang, N.;  Xiao, W.; Chen, C., Crystal structure of neodymium(III) formate, Nd(HCO2)3. Zeitschrift Fur Kristallographie-New Crystal Structures. 2009, 224, 275-276.

1.    Deng, S.;  Zhang, N.;  Xiao, W.; Chen, C., A 2D brickwall architecture from a double-T-shaped ligand and hybrid coordinatively unsaturated copper: Synthesis, structure, and framework dynamic. Inorganic Chemistry Communications. 2009, 12, 157-160.

2008

1.    Jinlian, Z.;  Ning, Z.;  Chao, C.; Rui, C., Photovoltaic Properties and Photocatalytic Synthesis of Methanol from Reduction of CO2 by Cu/CeO2-NiO. Materials Review. 2008, 22, 100-102,106.

2007

2.    Lin, H.;  Zhang, N.;  Chen, C.; Song, L., Preparation and characterization and photoelectric properties of C-doped TiO2. New Chemical Materials. 2007, 35, 27-29.

1.    Chen, C.;  Wang, S.;  Zhang, N.;  Yan, Z.; Pang, W., Novel fluorinated indium phosphate with a double-layers structure: Assembled from racemic chiral building units. Microporous and Mesoporous Materials. 2007, 106, 1-7.

2006

1.    Chen, C.;  Liu, Y.;  Fang, Q.;  Liu, L.;  Eubank, J. F.;  Zhang, N.;  Gong, S.; Pang, W., Novel open-framework fluorinated indium phosphate with 14-ring intersecting channels: Assembled from 6*1 and racemic pillared secondary building units. Microporous and Mesoporous Materials. 2006, 97, 132-140.


授权专利

1.  陈超,史顺利,钟贻成,汪淑华,赵丹,丁顺民,一种手性中空结构的金属-有机框架材料的合成方法及应用,发明专利CN202010290602.0授权时间 2022.03.22

2.  陈超,金海超,万明明,赵丹,张宁,曾建伟,汤胜山,一种用于提高LED银元件防硫化性能的保护剂及制备和使用方法, 发明专利ZL201610288402.5授权时间 2019.10.1

3.  陈超,万明明,金海超,赵丹,张宁,一种LED银支架防银変色剤的制备及成膜方法,发明专利ZL201610246337.X授权时间 2018.6.8

4.  陈超,王慧泽,彭艳,赵丹,张宁,一种Ni/ZrO2加氢催化剂的合成方法及该催化剂在加氢反应中的应用,发明专利ZL201510881545.2授权时间 2018.8.17

5.  赵丹,涂长满,胡雪静,邓圣军,肖卫明,陈超,张宁,一种表面为稳定多价态铜复合层Cu2O基纳米材料的制备方法,发明专利ZL201510651665.3授权时间 2016.11.16

6.  赵丹,王慧泽,邓圣军,肖卫明,陈超,张宁,一种表面高分散贵金属高指数晶面纳米颗粒的制备方法,发明专利ZL201410014413.5授权时间 2016.4.13

7.  赵丹,邢萌萌,曾春,邓圣军,肖卫明,陈超,张宁,一种铜氧化物表面复合锰氧化层材料的制备方法,发明专利ZL201610943922.5授权时间 2019.1.11

8.  赵丹,邢萌萌,曾春,邓圣军,肖卫明,陈超,张宁,一种铜氧化物表面复合铈氧化层材料的制备方法,发明专利ZL201610943921.0授权时间 2019.1.11

9.  陈超,袁铭伟,彭鹤松,宋波,李海滨,一种重质碳酸钙改性剂、改性超细重质碳酸钙及其制备方法和应用、顺丁橡胶复合材料,发明专利CN202110269285.9授权时间 2021.3.12

10.   陈超,袁铭伟,彭鹤松,宋波,一种二氧化硅@硅酸钙中空纳米球及其制备方法和应用,发明专利ZL202110478939.9。授权时间2022.7.22

11.      陈超,袁铭伟,万力,艾凡荣,汪淑华,一种金属-有机框架混合基质膜反应器及制备方法和应用,发明专利:ZL 2022 1 1244437.0。授权时间: 2023.11 03

12.      陈超、史顺利、梁秋鸿、莫钢雨、赵丹、丁顺民、汪淑华,高效复合型催化剂制备方法及硅烷偶联剂KH-560制备方法,发明专利:ZL 202010290037.8。授权时间: 2023.11.10

13.      陈超;胡卓;史顺利;汪淑华;赵丹;丁顺民,一种碳包覆的钴银合金催化剂的制备方法,发明专利:ZL201910782431.0。授权时间: 2023.03.31

14.       陈超,梁秋鸿,史顺利,赵丹,汪淑华,张宁,一种用于合成 KH-560 硅烷偶联剂的固载型催化剂及其制备方法,发明专利:ZL 202010182730.3。授权时间: 2023.05.24

15.       陈超;史顺利;林迎春;张炳振;李莹;龚梓康,一种组合试剂的分隔与混合瓶,发明专利:ZL 202320764025.3。授权时间: 2023.11.28

16.       陈超; 付林杰; 陈祥斌; 赵丹; 丁顺民, 具有高分散性的光固化液体硅橡胶催化剂及其制备方法,发明专利:ZL 201910409380.7。授权时间:2022.4.12

17.        陈超;胡卓;付林杰;钟贻成;赵丹;丁顺民;肖卫明;邓圣军,一种核壳型柠檬醛选择性加氢催化剂的合成方法,发明专利:ZL201910732055.4。授权时间:2022.07.12