个人简历

一、个人简历\r
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陈迪明，1987年7月生，山东临沂人，群众，博士学历，讲师，硕士生导师，研究方向为功能金属有机框架的构筑及其吸附、荧光方面的性质研究。近年来发表SCI论文30余篇，教改论文2篇，论文被引用600余次，单篇最高80余次，H指数14。\r
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二、教育背景\r
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2012/09-2015/06，南开大学，化学系，博士，导师：程鹏教授\r
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2009/09-2012/06，南开大学，元素有机化学国家重点实验室，硕士，导师：李卫东教授\r
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2005/09-2009/06，烟台大学，应用化学系，学士\r
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三、工作经历\r
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2015/07-至今，郑州轻工业学院，河南省表界面科学重点实验室，讲师

研究领域

1.金属有机框架在能源气体的存储分离、污染物的吸附降解以及荧光识别传感。 2.复合型多功能孔材料的制备及其构效关系研究。 3.金属有机框架为前驱体的碳材料及金属复合的碳材料在能源转化方面的研究。 4.计算软件辅助的晶体可视化材料的构效关系研究。""

近期论文

Chen, D.-M.; Liu, X.-H.; Zhang, N.-N.; Liu, C.-S.; Du, M. Immobilization of Polyoxometalate in a Cage-Based Metal–organic Framework towards Enhanced Stability and Highly Effective Dye Degradation. Polyhedron 2018, 152 (17), 108–113.\r
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Chen, D.-M.; Sun, C.-X.; Liu, C.-S.; Du, M. Stable Layered Semiconductive Cu(I)–Organic Framework for Efficient Visible-Light-Driven Cr(VI) Reduction and H 2 Evolution. Inorg. Chem. 2018, 57 (13), 7975–7981.\r
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Chen, D.-M.; Liu, X.-H.; Zhang, J.-H.; Liu, C.-S. A Flexible Doubly Interpenetrated Metal–organic Framework with Gate Opening Effect for Highly Selective C 2 H 2 /C 2 H 4 Separation at Room Temperature. CrystEngComm 2018, 20 (17), 2341–2345.\r
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Chen, D.-M.; Sun, C.-X.; Peng, Y.; Zhang, N.-N.; Si, H.-H.; Liu, C.-S.; Du, M. Ratiometric Fluorescence Sensing and Colorimetric Decoding Methanol by a Bimetallic Lanthanide-Organic Framework[J]. Sensors Actuators B Chem. 2018, 265 (36), 104–109.\r
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Chen, D.-M.; Sun, C.-X.; Zhang, N.-N.; Si, H.-H.; Liu, C.-S.; Du, M. Tunable Robust Pacs-MOFs: A Platform for Systematic Enhancement of the C2H2 Uptake and C2H2/C2H4 Separation Performance[J]. Inorg. Chem. 2018, 57 (5), 2883–2889.\r
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Chen, D.-M.; Liu, X.-H.; Tian, J.-Y.; Zhang, J.-H.; Liu, C.-S.; Du, M. Microporous Cobalt(II)–Organic Framework with Open O-Donor Sites for Effective C2H2 Storage and C2H2/CO2 Separation at Room Temperature[J]. Inorg. Chem. 2017, 56, 14767–14770.\r
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Chen, D.-M.; Tian, J.-Y.; Wang, Z.-W.; Liu, C.-S.; Chen, M.; Du, M. An Anionic Na(I)–organic Framework Platform: Separation of Organic Dyes and Post-Modification for Highly Sensitive Detection of Picric Acid[J]. Chem. Commun. 2017, 53 (77), 10668–10671.\r
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Chen, D.-M.; Zhang, N.-N.; Liu, C.-S.; Du, M. Dual-Emitting Dye@MOF Composite as a Self-Calibrating Sensor for 2,4,6-Trinitrophenol[J]. ACS Appl. Mater. Interfaces 2017, 9 (29), 24671–24677.\r
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Chen, D.-M.; Zhang, N.-N.; Tian, J.-Y.; Liu, C.-S.; Du, M. Quest for the Ncb -Type Metal–Organic Framework Platform: A Bifunctional Ligand Approach Meets Net Topology Needs[J]. Inorg. Chem. 2017, 56 (13), 7328–7331.\r
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Chen D.-M., Zhang N.-N., Tian J.-Y., Liu C.-S., Du M. Pore modulation of metal-organic frameworks towards enhanced hydrothermal stability and acetylene uptake via incorporation of different functional brackets[J]. J Mater Chem A, 2017, 5(10): 4861-4867.\r
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Chen D.-M., Zhang N.-N., Liu C.-S., Jiang Z.-H., Wang X.-D., Du M. A Mixed-Cluster Approach for Building a Highly Porous Cobalt(II) Isonicotinic Acid Framework: Gas Sorption Properties and Computational Analyses[J]. Inorg Chem, 2017, 56(5): 2379-2382.\r
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Chen D.-M., Zhang N.-N., Liu C.-S., Du M. Template-directed synthesis of a luminescent Tb-MOF material for highly selective Fe3+ and Al3+ ion detection and VOC vapor sensing[J]. J Mater Chem C, 2017, 5(9): 2311-2317.\r
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Chen D.-M., Tian J.-Y., Liu C.-S., Du M. A bracket approach to improve the stability and gas sorption performance of a metal-organic framework via in situ incorporating the size-matching molecular building blocks[J]. Chem Commun (Camb), 2016, 52(54): 8413-8416.\r
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Chen D.-M., Tian J.-Y., Liu C.-S., Du M. A CoII-based metal-organic framework based on [Co6(μ3-OH)4] units exhibiting selective sorption of C2H2 over CO2 and CH4[J]. CrystEngComm, 2016, 18(21): 3760-3763.\r
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Chen D.-M., Tian J.-Y., Liu C.-S., Chen M., Du M. Charge Control in Two Isostructural Anionic/Cationic CoII Coordination Frameworks for Enhanced Acetylene Capture[J]. Chem - Eur J, 2016, 22(42): 15151.\r
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Chen D.-M., Tian J.-Y., Liu C.-S. Ligand Symmetry Modulation for Designing Mixed-Ligand Metal-Organic Frameworks: Gas Sorption and Luminescence Sensing Properties[J]. Inorg Chem, 2016, 55(17): 8892-8897.\r
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Chen D.-M., Tian J.-Y., Liu C.-S. A luminescent Li(I)-based metal-organic framework showing selective Fe(III) ion and nitro explosive sensing[J]. Inorg Chem Commun, 2016, 68: 29-32.\r
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Chen D.-M., Tian J.-Y., Liu C.-S. An Unusual (6, 14)-Connected Metal-Organic Framework Constructed from Two Distinct Cobalt(II) Cluster Units and a Bifunctional Organic Linker[J]. Z Anorg Allg Chem, 2016, 642(11-12): 714-718.\r
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Chen D.-M., Tian J.-Y., Fang S.-M., Liu C.-S. Gas sorption studies on a highly-thermostable microporous Zn(II) coordination polymer constructed from 2D honeycomb layers[J]. Inorg Chem Commun, 2016, 66: 69-72.\r
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Chen D.-M., Tian J.-Y., Fang S.-M., Liu C.-S. Two isomeric Zn(II)-based metal-organic frameworks constructed from a bifunctional triazolate-carboxylate tecton exhibiting distinct gas sorption behaviors[J]. CrystEngComm, 2016, 18(14): 2579-2584.\r
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Chen D.-M., Tian J.-Y., Chen M., Liu C.-S., Du M. Moisture-Stable Zn(II) Metal-Organic Framework as a Multifunctional Platform for Highly Efficient CO2 Capture and Nitro Pollutant Vapor Detection[J]. ACS Appl Mater Interfaces, 2016, 8(28): 18043-18050.\r
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Chen D.-M., Zhang X.-P., Shi W., Cheng P. Microporous Metal-Organic Framework Based on a Bifunctional Linker for Selective Sorption of CO2 over N2 and CH4[J]. Inorg Chem, 2015, 54(11): 5512-5518.\r
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Chen D.-M., Xu N., Qiu X.-H., Cheng P. Functionalization of Metal-Organic Framework via Mixed-Ligand Strategy for Selective CO2 Sorption at Ambient Conditions[J]. Cryst Growth Des, 2015, 15(2): 961-965.\r
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Chen D.-M., Shi W., Cheng P. A cage-based cationic body-centered tetragonal metal-organic framework: single-crystal to single-crystal transformation and selective uptake of organic dyes[J]. Chem Commun (Camb), 2015, 51(2): 370-372.\r
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Chen D.-M., Ma X.-Z., Zhang X.-J., Xu N., Cheng P. Switching a 2D Co(II) layer to a 3D Co7-cluster-based metal-organic framework: syntheses, crystal structures, and magnetic properties[J]. Inorg Chem, 2015, 54(6): 2976-2982.\r
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Chen D.-M., Ma X.-Z., Shi W., Cheng P. Solvent-Induced Topological Diversity of Two Zn(II) Metal-Organic Frameworks and High Sensitivity in Recyclable Detection of Nitrobenzene[J]. Cryst Growth Des, 2015, 15(8): 3999-4004.\r
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Chen D.-M., Ma J.-G., Cheng P. Solvent-induced secondary building unit (SBU) variations in a series of Cu(II) metal-organic frameworks derived from a bifunctional ligand[J]. Dalton Trans, 2015, 44(19): 8926-8931.\r
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Chen D.-M., Zhang X.-p., Shi W., Cheng P. Tuning Two-Dimensional Layer to Three-Dimensional Pillar-Layered Metal-Organic Frameworks: Polycatenation and Interpenetration Behaviors[J]. Cryst Growth Des, 2014, 14(12): 6261-6268.\r
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Xu, F.; Si, X.-J.; Wang, X.-N.; Kou, H.-D.; Chen, D.-M.; Liu, C.-S.; Du, M. A High-Activity Cobalt-Based MOF Catalyst for [2 + 2 + 2] Cycloaddition of Diynes and Alkynes: Insights into Alkyne Affinity and Selectivity Control. RSC Adv. 2018, 8 (9), 4895–4899.\r
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Wang L., Fan G., Xu X., Chen D.-M., Wang L., Shi W., Cheng P. Detection of polychlorinated benzenes (persistent organic pollutants) by a luminescent sensor based on a lanthanide metal-organic framework[J]. J Mater Chem A, 2017: Ahead of Print.\r
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Liu C.-S., Zhang Z., Chen M., Zhao H., Duan F.-H., Chen D.-M., Wang M., Zhang S., Du M. Pore modulation of zirconium-organic frameworks for high-efficiency detection of trace protein[J]. Chem Commun (Cambridge, U K), 2017:\r
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Wu X.-Q., Ma J.-G., Li H., Chen D.-M., Gu W., Yang G.-M., Cheng P. Metal-organic framework biosensor with high stability and selectivity in a bio-mimic environment[J]. Chem Commun, 2015, 51(44): 9161-9164.\r
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Li X.-L., Li H., Chen D.-M., Wang C., Wu J., Tang J., Shi W., Cheng P. Planar Dy3+ Dy3 clusters: design, structure and axial ligand perturbed magnetic dynamics[J]. Dalton Trans, 2015, 44(47): 20316-20320.\r
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He Y.-F., Chen D.-M., Xu H., Cheng P. Structural diversity of luminescent lanthanide metal-organic frameworks based on a V-shaped ligand[J]. CrystEngComm, 2015, 17(12): 2471-2478.\r
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Zhang, H.; Ma, J.; Chen D.-M., Zhou, J.; Zhang, S.; Shi, W.; Cheng, P. Microporous Heterometal–organic Framework as a Sensor for BTEX with High Selectivity[J]. J. Mater. Chem. A 2014, 2 (48), 20450–20453.\r
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Zhang, H.; Chen D.-M., Ma, H.; Cheng, P. Real-Time Detection of Traces of Benzaldehyde in Benzyl Alcohol as a Solvent by a Flexible Lanthanide Microporous Metal-Organic Framework[J]. Chem. - A Eur. J. 2015, 21 (44), 15854–15859.