近年发表的部分SCI及EI 论文如下:
2026
[1] Haiying Zhou, Jian Wen, Guanghui Wu, Pinghua Chen*, Qi Ke, Yonghui Deng, Xibao Li, Xinming Zhou, Shaoning Yu, Hualin Jiang*. Rational construction of hollow NiCoCd-S nanoprisms for high-performance supercapacitor. Chinese Chemical Letters, 2026, 37 (5): 110954. https://doi.org/10.1016/j.cclet.2025.110954 (SCI 一区)
[2] Weibo Zhang, Zhong Jin, Xihuan Wang, Hualin Jiang, Pinghua Chen, John P. Giesy, Yingchen Bai. Synergistic accelerated aggregation of graphdiyne and fullerene by light and metal cations in aquatic system. Journal of Hazardous Materials. 506 (2026) 141548. https://doi.org/10.1016/j.jhazmat.2026.141548. (SCI 一区)
[3] Wei Zhao, Jian Wen, Hualin Jiang*, Tejraj M. Aminabhavi*, Pinghua Chen*, Guolong Zhu, Mao Peng. Construction of S-scheme heterojunction CdS/Co9S8 and analysis of its high photocatalytic bifunction. International Journal of Hydrogen Energy. 229 (2026) 154728. https://doi.org/10.1016/j.ijhydene.2026.154728 (SCI 二区)
2025
[4] Dongdong Fan, Jian Wen, Pinghua Chen*, Xinman Tu, Xubiao Luo, Yonghui Deng, Guolong Zhu, Hualin Jiang*. Facile synthesis of a single-atom cobalt catalyst to enhance peroxymonosulfate oxidation to degrade emerging contaminants by visible-light regulation: From radical pathway to synergistic pathway. Journal of Colloid and Interface Science, 2025, 693: 137626. https://doi.org/10.1016/j.jcis.2025.137626 (SCI 一区)
[5] Xibao Li, Yiyang Wan, Fang Deng, Yingtang Zhou, Pinghua Chen, Fan Dong, Jizhou Jiang. Advances in Z-scheme and S-scheme heterojunctions for photocatalytic and photoelectrocatalytic H2O2 production. Chinese Chemical Letters, 2025, 36: 111418. https://doi.org/10.1016/j.cclet.2025.111418 (SCI 一区)
[6] Hualin Jiang, Shaoning Yu, Jian Wen, Pinghua Chen*, Tejraj M. Aminabhavi, Xibao Li, Xueqing Duan, Haiying Zhou, Xiaotian Liu, Mao Peng. Efficient heterogeneous CoFe-PBA/NiFe-LDH electrocatalyst for overall water splitting. Chemical Engineering Journal. 2025, 526: 17903. https://doi.org/10.1016/j.cej.2025.170903 (SCI 一区)
[7] Hualin Jiang, Wenxi Ye, Huitao Zhen, Xubiao Luo, Vyacheslav Fominski, Long Ye, Pinghua Chen*. Novel 3D-on-2D g-C3N4/AgInxSy heterojunction photocatalyst for simultaneous and stoichiometric production of H2 and H2O2 from water splitting under visible light. Chinese Chemical Letters. 2025, 36(2): 109984. https://doi.org/10.1016/j.cclet.2024.109984 (SCI 一区)
[8] Pengwen Luo, Lu Liu, Hong Chen, Yu Gong, Xiaoli Tang, Bin Hu, Dan Zhou, Pinghua Chen. Dithiophene chemosensor for ultrasensitive intracellular detection of Al3+: Design, DFT analysis, and ESIPT-PET mechanisms. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 2025, 339: 126244.(SCI 二区)
[9] Dongdong Fan, Meihua Hu, Songyuan Li, Pinghua Chen*, Hualin Jiang*, Xinman Tu, Xibao Li, Xubiao Luo. CNTs with nano-conffned TiO2 and surface loading Co3O4: The analysis of its performance and mechanism of PMS activation for ECs degradation under visible light. Separation and Puriffcation Technology. 2025, 352: 127840. https://doi.org/10.1016/j.seppur.2024.127840(SCI 二区)
[10] Lan Xiao, Jian Wen, Guanghui Wu, Pinghua Chen*, Mengxue Wang, Hualin Jiang*, Xinming Zhou, Jianan Yan. FeCo-MOF-74/Mn-MOF-74 Nanocomposite as a electrocatalyst for improved oxygen evolution reaction catalytic activity. Fuel. 2025, 381:133516. https://doi.org/10.1016/j.fuel.2024.133516(SCI 二区)
2024
[11] Hualin Jiang, Dongdong Fan, Xianhua Qiu, Songyuan Li, Xinman Tu, Long Ye, Weiwei Zhang, Yang Xie, Pinghua Chen, Xubiao Luo. One stone three birds: Simultaneous detection, adsorption and photocatalysis, the novel coordinated treating strategy towards complicated pollution system and the mechanism analysis[J]. Applied Surface Science, 642 (2024) 158570. https://doi.org/10.1016/j.apsusc.2023.158570
[12] Hualin Jiang, Haiying Zhou, Qi Ke, Pinghua Chen*, Shuai Wang, Bingying Rao, Guanghui Wu. Rational construction of CoFe-S/rGO composites with enriched sulfur vacancies for high-performance supercapacitor. Applied Surface Science. 2024, 648: 159063. https://doi.org/10.1016/j.apsusc.2023.159063
[13] Zhaojin Xie, Meihua Hu, Xianhua Qiu, Xiaomin Guo, Pinghua Chen*, Hualin Jiang*, Xubiao Luo, Vyacheslav Fominski. A S-scheme heterojunction of MIL-125(Ti)/BiOBr for remediation of organic and inorganic pollutants coexistent real water: Application and mechanism investigation. Journal of Environmental Chemical Engineering. 2024, 12: 112567. https://doi.org/10.1016/j.jece.2024.112567
[14] Mengxue Ji, Jian Wen, Qiuyue Xu, Guanghui Wu, Pinghua Chen*, Xibao Li, Hualin Jiang*, Xubiao Luo. Highly efficient visible-light-driven water splitting for H2 evolution and degradation of ECs using CdS/ZnIn2S4 S-scheme heterojunction with built-in electric field. Fuel. 2024, 374: 132444. https://doi.org/10.1016/j.fuel.2024.132444
2023
[15] H. Jiang, Q. Ke, X. Qiu, J. Chen, P. Chen*, S. Wang, X. Luo, B. Rao. NiCo layered double hydroxide nanocages for high-performance asymmetric supercapacitors. Inorg. Chem. Front., 2023, 10: 2154-2164.
[16] W. Zhang, Q. Xu, X. Tang, H. Jiang,* J. Shi, V. Fominski, Y. Bai*, P. Chen*, J. Zou. Construction of a transition-metal sulfide heterojunction photocatalyst driven by a built-in electric field for efficient hydrogen evolution under visible light. Journal of Colloid and Interface Science, 2023, 649: 325-333.
[17] A. Rezaeifard*, M. Rezaei, N. Keikha, M. Jafarpour*, P. Chen, H. Jiang. Enhanced visible-light-induced photocatalytic activity in M(III)Salophen-decorated TiO2 nanoparticles for heterogeneous degradation of organic dyes. ACS Omega, 2023, 8(4): 3821-3834.
[18] P. Chen, X. Duan, G. Li, X. Qiu, S. Wang, Y. Huang, A. Stavitskaya, H. Jiang*. Construction of ZIF-67/MIL-88(Fe, Ni) catalysts as a novel platform for efficient overall water splitting. International Journal of Hydrogen Energy, 2023, 48: 7170-7180.
[19] Jie Liu, Yu Xie, Yiqiao Wang, Kai Yang, Shuping Su, Yun Ling, Pinghua Chen. Synergistic coupling of interface ohmic contact and LSPR effects over Au/Bi24O31Br10 nanosheets for visible-light-driven photocatalytic CO2 reduction to CO[J]. Chem. Sci., 2023, https://doi.org/10.1039/d3sc03474g
[20] Wen Tang, Hao Ye, Yu Xie, Pinghua Chen, Linxiu Luo, Yifan Zhang. Transition metal bismuth spheres dispersed and anchored in benzene-ring-grafted porous g-C3N4 nanosheets for photocatalytic reduction of CO2[J]. Chemical Engineering Journal, 478 (2023) 147350. https://doi.org/10.1016/j.cej.2023.147350
[21] Qiuyue Xu, Xianhua Qiu, Weibo Zhang, Huitao Zheng, Shuai Wang, Shengfu Yang, Pinghua Chen, Hualin Jiang. Ni(OH)2 decorated g-C3N4 tubes for precious metal free photocatalytic H2 evolution and the investigation of charge storage mechanism of Ni(OH)2[J]. Diamond & Related Materials, 140 (2023) 110524. https://doi.org/10.1016/j.diamond.2023.110524
[22] Hualin Jiang, Zhe Zhao, Gang Li, Mengxue Wang, Pinghua Chen,* Xiaotian Liu, Xinman Tu, Yitian Hu, Zhen Shen, Yirou Wu. Hollow spherical heterostructured FeCo-P catalysts derived from MOF-74 for efficient overall water splitting[J]. Adv. Sci. 2023, 2306919. https://doi.org/10.1002/advs.202306919
[23] Hualin Jiang, Yunjie Yu, Xueqing Duan, Pinghua Chen*, Shuai Wang, Xianhua Qiu, Long Ye, Xinman Tu. Heterostructured MoO3 Anchored Defect-Rich NiFe-LDH/NF as a Robust Self-Supporting Electrocatalyst for Overall Water Splitting. Small. 2023, 2307797. https://doi.org/10.1002/smll.202307797
2022
[24] P. Chen, M. Wang, G. Li, H. Jiang*, A. Rezaeifard, M. Jafarpour, G. Wu, B. Rao. Construction of ZIF-67-On-UiO-66 catalysts as a platform for efficient overall water splitting. Inorganic Chemistry, 2022, 61(46): 18424-18433.
[25] Z. Wu, Z. Chen, J. Chen*, X. Ning, P. Chen*, H. Jiang, H. Qiu*. Enhanced adsorption and synergistic photocatalytic degradation of tetracycline by MOF-801/GO composites via solvothermal synthesis. Environ. Sci.: Nano, 2022, 9: 4609-4618.
[26] H. Jiang, Q. Wang, P. Chen*, H. Zheng, J. Shi, H. Shu, Y. Liu*. Photocatalytic degradation of tetracycline by using a regenerable (Bi) BiOBr/rGO composite. Journal of Cleaner Production. 2022, 339: 130771.
[27] P. Chen, H. Zheng, H. Jiang*, J. Liu, X. Tu, W. Zhang, B. Phillipsc, L. Fang,*, J. Zou*, Oxygen-Vacancy-Rich Phenanthroline/TiO2 nanocomposites: an integrated adsorption, detection and photocatalytic material for complex pollutants remediation. Chinese Chem. Lett., 2022, 33(2): 907-911.
[28] Y. Ren, D. Guo, Z. Zhao, P. Chen, F. Li, J. Yao, H. Jiang*, Y. Liu*. Singlet oxygen mediated photocatalytic Antimonite decontamination in water using nanoconfined TiO2. Chemical Engineering Journal. 2022, 435: 134832.
[29] H. Jiang, J. Chen, Y. Shi, P. Chen* , X. Tang, W. Jiang, Z. Zou, G. Wu. A wearable All-Solid-State supercapacitor with extremely high stability based on 2D Co-HCF/GO. Applied Surface Science. 2022, 586: 152739.
[30] P. Chen, S. Li, X. Tang, H. Zheng, J. Shi, L. Wen, Y. Xu*, V. Fominski*, H. Jiang*. Photo-inactive ZIF-8 is applied to significantly enhance the photocatalytic water reduction by forming a built-in electric field with g-C3N4 and the mechanism analysis. Journal of Environmental Chemical Engineering. 2022, 10: 107998.
2021
[31] W. Jiang, P. Chen*, X. Li, G. Wu, H. Zheng, C. Li, L. Fang*, H. Jiang*, π-conjugation extension and defects introduction into g-C3N4 by phenanthroline molecular doping to form a metal-free electrochemcial sensor towards effective 4-NP detection. Diam. Relat. Mater., 2021, 119: 108557.
[32] G. Li, P. Chen*, W. Jiang, M. Wang, and H. Jiang*. Amorphous Yolk-shelled ZIF-67@Co3(PO4)2 as nonprecious bifunctional catalysts for boosting overall water splitting. Inorg. Chem. 2021, 60 (19): 14880-14891.
[33] J. Chen, H. Shu, P. Niu, P. Chen*, H. Jiang*. Highly sensitive detection of trace tetracycline in water using a metal-organic framework-enabled sensor. Adsorption Science & Technology, 2021, 2021: 1-11.
[34] X. Tang, G. Wu, T. Wang, P. Chen*, J. Chen, H. Jiang*. Simultaneously remove and visually detect Ce4+ based on nanocomposite of UiO-66-NH2/CPA-MA. Adsorption Science & Technology. 2021, 2021: 1-6.
[35] Y. Shi, P. Chen, J. Chen, D. Chen, H. Shu, H. Jiang*, X. Luo*, Hollow Prussian blue analogue/g-C3N4 nanobox for all-solid-state asymmetric supercapacitor. Chem. Eng. J., 2021, 404: 126284.
[36] X. Li, Y. Shi, P. Chen*, Y. Bai, G. Li, H. Shu, D. Chen, S. Li* and H. Jiang*. Multifunctional electrochemical application of a novel 3D AgInS2/rGO nanohybrid for electrochemical detection and HER. J. Chem. Technol. Biot. 2019, 94(11): 3713-3724.
2020
[37] Q. Wang, P. Chen*, X. Zeng, H. Jiang*, F. Meng, X. Li, T. Wang, G. Zeng, L. Liu, H. Shu, X. Luo*. Synthesis of (ZrO2-Al2O3)/GO nanocomposite by sonochemical method and the mechanism analysis of its high defluoridation. J. Hazard. Mater. 2020, 381:120954.
[38] H. Jiang, L. Tian, P. Chen*, Y. Bai, X. Li, H. Shu, X. Luo*, Efficient antimony removal by self-assembled core-shell nanocomposite of Co3O4@rGO and the analysis of its adsorption mechanism. Environ. Res., 2020, 187: 109657.
[39] P. Niu, G. Wu, P. Chen*, H. Zheng, Q. Cao, H. Jiang*, Optimization of boron doped TiO2 as an efficient visible light-driven photocatalyst for organic dye degradation with high reusability. Front. Chem. 2020, 8:172.
2019
[40] H. Jiang, X. Li, M. Li, P. Liu, T. Wang, D. Chen, P. Chen*, J. Zou*. A new strategy for triggering photocatalytic activity of cytrochrome P450 by coupling of semiconductors. Chemical Engineering Journal. 2019, 358: 58-66.
[41] H. Jiang, X. Li, L. Tian, T. Wang, Q. Wang, P. Niu, P. Chen*, X. Luo*. Defluoridation investigation of Yttrium by laminated Y-Zr-Al tri-metal nanocomposite and analysis of the fluoride sorption mechanism. Science of the Total Environment. 2019, 648: 1342-1353.
[42] P. Chen, Y. Shi, P. Niu, T. Wang, X. Li, H. Jiang*, W. Zhou*, H. Shu, J. Chen, E. Tian. Highly sensitive detection of 4-NP in real water with long stability and high anti-inteference ability based on GO-Ag2CrO4/GCE. Journal of the Taiwan Institute of Chemical Engineers. 2019, 97: 128-136.
[43] T. Wang, P. Chen*, M. Li, X. Luo, L. Liu, G. Zeng, J. Jiang, K. Huang, X. Xu, S. Li, and H. Jiang*. Synthesis of La2(C2O4)3 nanoprisms decorated with Fe3O4@m(ZrO2‐CeO2) nanospheres and their application of effective fluoride removal. J. Chem. Technol. Biot. 2019, 94(11): 3650-3660.
2018
[44] H. Jiang, J. Liu, M. Li, L. Tian, G. Ding, P. Chen*, X. Luo*, Facile synthesis of a C decorated Fe, N co-doped TiO2 with enhanced visible light photocatalytic activity by a novel co-precursor method. Chinese Journal of Catalysis, 2018,39:747-759.
[45] P. Chen, T. Wang, Y. Xiao, E. Tian, W. Wang, Y. Zhao, L. Tian, H. Jiang*, X. Luo*, Efficient fluoride removal from aqueous solution by synthetic Fe-Mg-La tri-metal nanocomposite and the analysis of its adsorption mechanism. J. Alloy. Compd., 2018, 738: 118-129.
[46] H. Jiang*, M. Li, J. Liu, X. Li, L. Tian, P. Chen*, Alkali-free synthesis of a novel heterostructured CeO2-TiO2 nanocomposite with high performance to reduce Cr(VI) under visible light. Ceram. Int., 2018, 44: 2709-2717. (High cited paper)
[47] P. Chen, Y. Shi, X. Li, T. Wang, M. Zhou, E. Tian, W. Wang, H. Jiang*, H. Shu. Highly effictive detection of 4-nitrophenol by tremella-like indium silver sulfide modified GCE. International Journal of Electrochemical Science. 2018, 13: 6158-6168.
[48] L. Tian, H. Jiang*, P. Chen, Q. Wang, P. Niu, Y. Shi, M. Zhou, Y. Qing, X. Luo*. A novel GO/PNIPAm hybrid with two functional domains can simultaneously effectively adsorb and recover valuable organic and inorganic resources. Chemical Engineering Journal. 2018, 343: 607-618.
[49] Facile synthesis of magnetic La–Zr composite as high effective adsorbent for fluoride removal. RSC Adv. 6(2016)35859-35867. (SCI).
[50] One Pot Method to Synthesize a Novel La–Zr Composite with Exceptionally High Fluoride Removal Performance. J. Inorg. Organomet. Polym. 26(2016)285-293. (SCI).
[51] Tuning the phase composition and particle characteristics of partially stabilized yttria and ceria co-doped zirconia nanocrystals via a sol-gel process with sodium chloride as an additive.Ceramics International. 41(2015)1309-1316. (SCI)
[52] Kinetic and thermodynamic study adsorbing methylene blue on nanozirconia. Applied Mechanics and Materials. 475-476(2014)1311-1319. (EI)
[53] Equipping an adsorbent with an indicator: a novel composite to simultaneously detect and remove heavy metals from water. J. Mater. Chem. A, 4(30)(2016)11897-11907. (SCI).
[54] Deposition of nano Fe3O4@mZrO2 onto exfoliated graphite oxide sheets and its application for removal of amaranth, Appl. Surf. Sci, 317(2014)1080-1089.(SCI).
[55] Synthesis of novel nanocomposite Fe3O4/ZrO2/chitosan and its application for removal of nitrate and phosphate. Applied Surface Science 284(2013)942-949. (SCI)
[56] A novel fluorinated metal-organic framework with rhombic channels. Inorg. Chem. Commun. 24(2012)50-54. (SCI)
[57] Solvothermal Synthesis and Crystal Structure of a Zn(II) Microporous Metal-organic Framework . Chinese Journal of structural chemistry. 31(11)(2012)1676-1680. (SCI)
[58] Solvothermal Synthesis and Crystal structure of a Two-dimensional Cd(Ⅱ) Complex Based on a Flexible Carboxylate Ligand. Chinese Journal of structural chemistry. 31(12)(2012)1837-1841. (SCI)
近年来授权的专利:
[1] 陈萍华 蒋华麟 刘军 厉梦琳 田磊 张为波,一种利用邻菲啰啉合铁同时向TiO2掺杂铁、氮的方法,ZL201510972546.8,申请时间:2015.12.23;授权时间:2019.04.05
[2] 陈萍华 石杨明 蒋华麟 戴玉华 邓春健 陈皆曾 唐小秋,一种中空Rb-Ni-Fe立方体/g-碳三氮四超级电容器材料的制备方法,ZL201910851371.3,申请时间:2019-9-10;授权时间:2021.06.15
[3] 陈萍华 蒋华麟 田磊 肖业雯 王琦,一种Fe-Mg-La三元复合氟离子吸附剂及其制备方法,ZL201710880204.2,申请时间:2017.09.26;授权时间:2019.10.15
[4] 陈萍华 蒋华麟 田磊 王琦 牛平平,一种3D花瓣状Sb(III),Sb(V)吸附材料的制备方法,ZL201711033104.2,申请时间:2017.10.30;授权时间:2019.08.06
[5] 陈萍华 蒋华麟 王琦 李雪芹 肖业雯, 一种Y-Zr-Al三元金属复合纳米氟离子吸附的制备方法,ZL201710080206.1,申请时间:2017.09.26;授权时间:2019.07.19
[6] 陈萍华 蒋华麟 田磊 刘军 周敬松,一种通过声化学法合成氟离子吸附剂ZrO2-Al2O3/GO的方法,ZL201610632383.3,申请时间:2016.08.05;授权时间:2018.09.11
[7] 陈萍华 王涛 蒋华麟 李雪芹 王琦,一种电极修饰材料二硫铟化银/还原氧化石墨烯的制备方法及其检测环丙沙星的应用,ZL201811059712.5.19. 公开时间:2019-01-11;授权时间:2020.05.12
[8] 陈萍华 蒋华麟 张为波 罗胜联 厉梦琳,一种高吸附量高去除率的氟离子吸附剂及其制备方法,ZL201410436424.2,申请时间:2014.9.1;授权时间:2016.8.17
[9] 陈萍华 蒋华麟 罗胜联 秦元成,一种改造GO以提高其吸附酸性染料的性能,ZL201410045613.7,申请时间:2014.2.8;授权时间:2015.8.19
[10] 陈萍华 邹子龙 蒋华麟 戴玉华 李桂芳,一种基于ZIF-67和UiO-66双MOF的电催化全分解水材料的制备方法,ZL202010672120.1,申请时间:2020.07.14; 授权时间:2022.02.01
[11] 蒋华麟 牛平平 陈萍华 邓春健 龙石爱 顾明 李江,一种基于二硫铟化银电催化全解水材料的制备方法,ZL201910806916.9,申请时间:2019.08.29; 授权时间:2022.02.01
[12] 蒋华麟 蒋微 陈萍华 邓春健 龙石爱 陈皆曾 孟非凡 成超,一种可同时检测铅离子和铜离子的电传感器材料的制备方法,ZL201910812725.3,申请日期:2019.08.29,授权时间:2021.07.27
[13] 蒋华麟 王琦 陈萍华 牛平平 李雪芹 王涛 石杨明 戴玉华,一种免处理可多次重复使用的四环素降解光催化剂的制备方法及其应用,ZL201810819760.3. 申请日期:2018.07.24;授权时间:2021.05.18
[14] 蒋华麟 李桂芳 陈萍华 王琦 牛平平 王涛,一种基于二氧化锰/氧化石墨烯纳米复合材料的环丙沙星吸附净化剂的制备方法,ZL201811059717.8. 申请日期:2018.09.12;授权时间:2021.05.18
[15] 蒋华麟 陈萍华 厉梦琳 刘军,一种三明治构型的g-碳三氮四/二氧化钛复合光催化剂的制备方法,ZL201710592693.1,申请时间:2017.07.19;授权时间:2019.07.12
[16] 蒋华麟 田磊 陈萍华 刘军 何文,一种可分级回收Pb2+和4-NP的吸附剂的制备方法,ZL201710081961.3,申请时间:2017.02.15;授权时间:2019.06.14
[17] 蒋华麟 陈萍华 厉梦琳 刘军 田磊 张为波,一种利用TiO2‑CeO2负载CYP119酶光催化还原Cr6+的方法,ZL201510972547.2,申请时间:2015.12.23;授权时间:2017.12.5
[18] 蒋华麟 陈萍华 张为波 厉梦琳 刘军 田磊,一种通过一步反应稳定及增强TiO2活性的方法,ZL201510983219.2,申请时间:2015.12.24;授权时间:2017.12.1
[19] 蒋华麟 陈萍华 刘军 厉梦琳 田磊 张为波,一种利用TiO2‑邻菲啰啉负载CYP119酶光催化氧化降解甲基橙的方法,ZL201510972548.7,申请时间:2015.12.23;授权时间:2017.11.21
[20] 蒋华麟 陈萍华 厉梦琳 张为波 田磊 白培培,一种一锅法合成磁性3D石墨烯复合吸附材料的方法,ZL201510416632.0,申请时间:2015.7.16;授权时间:2017.10.13
[21] 蒋华麟 陈萍华 厉梦琳 张为波 舒梦 田磊,一种三氯卡班吸附净化剂的制备方法,ZL201510213125.7,申请时间:2015.4.30;授权时间:2017.3.15
[22] 蒋华麟 陈萍华 厉梦琳 张为波 田磊 白培培,一种基于3D石墨烯/BiOI的分子印迹光催化复合材料的制备方法,ZL201510416375.0,申请时间:2015.7.16;授权时间:2017.6.27
[23] 蒋华麟 陈萍华 厉梦琳 张为波 田磊 黄志根,一种自清洁智能吸附材料的制备方法,ZL201510528117.1,申请时间:2015.8.26;授权时间:2017.7.14
[24] 蒋华麟 李雪芹 陈萍华 牛平平 李桂芳 陈皆曾 戴玉华,一种修饰电极材料邻菲啰啉共聚改性g-碳三氮四的制备方法,ZL201811009072.7,申请时间:2018.08.31;授权时间:2020.01.03
[25] 蒋华麟 牛平平 陈萍华 李雪芹 王琦 郑会涛,一种以MIL-53(Fe)修饰电极检测水体中四环素的方法,ZL201811059850.3. 公开时间:2019.01.10;授权时间:2020.12.29
[26] 蒋华麟 张为波 陈萍华 罗胜联 罗旭彪,一种快速纯化CYP119酶的方法, ZL201310264044.0,申请时间:2013.6.28;授权时间:2016.1.27
[27] 蒋华麟 陈萍华 厉梦琳 罗胜联 张为波,一种磁性氟离子吸附剂及其制备方法,ZL201410436425.7,申请时间:2014.9.1;授权时间:2016.8.17
[28] 蒋华麟 陈萍华 张为波 张巍巍 王国耀 厉梦琳,一种可同时检测和吸附去除水体中亚铁离子和铜离子材料的制备方法,ZL201510045291.0,申请时间:2015.1.29;授权时间:2016.9.21
[29] 蒋华麟 陈萍华 厉梦林 罗胜联 张为波,一种调控纳米TiO2-CeO2的形貌呈球型、哑铃型、片型的方法,ZL201410363009.9,申请时间:2014.7.29;授权时间:2016.8.24
[30] 蒋华麟 罗胜联 陈萍华 罗旭彪 陈素华 秦元成,一种高效去除磷酸根、硝酸根的磁性纳米材料的制备方法,ZL201210105595.8,申请时间:2012.4.12;授权时间:2013.7.10
[31] 蒋华麟 陈萍华 罗胜联 涂新满 罗旭彪 曹群 袁志林 周艳蕾,一种提高壳聚糖抗酸性能的方法,ZL201210330556.8,申请时间:2012.9.10;授权时间:2014.9.17
[32] 李永绣 陈萍华 周雪珍 唐群 陈伟凡 李静 刘艳珠. 乙二醇溶胶-凝胶法合成类球形纳米钇铈掺杂氧化锆的方法,ZL201210531935.3,申请时间:2012.12.12;授权时间:2014.8.6
[33] 李永绣 陈萍华 周雪珍 陈伟凡 唐群 李东平 李静 刘艳珠 周新木. 类球形亚微米四方相钇铈稳定氧化锆陶瓷粉末的合成方法,ZL201210537680.1,申请时间:2012.12.13;授权时间:2014.7.16
讲授课程: 物理化学A;物理化学;物理化学实验;材料化学基础等.
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