近年发表的部分SCI及EI 论文如下:
1. Hualin Jiang, Qi Wang, Pinghua Chen*, Huitao Zheng, Jinwen Shi, Hongying Shu,
Yanbiao Liu*. Photocatalytic degradation of tetracycline by using a regenerable
(Bi) BiOBr/rGO composite[J]. Journal of Cleaner Production. 2022, 339: 130771.
(SCI)
2. Wei Jiang, Pinghua Chen*, Xueqin Li, Guanghui Wu, Huitao Zheng,
Chenxuan Li, Lei Fang*, Hualin Jiang*, π-conjugation extension and defects introduction into g-C3N4
by phenanthroline molecular doping to form a metal-free electrochemical sensor
towards effective 4-NP detection[J]. Diam. Relat. Mater., 2021, 119: 108557. https://doi.org/10.1016/j.diamond.2021.108557
(SCI)
3. Guifang Li, Pinghua Chen*, Wei Jiang, Mengxue Wang, and Hualin
Jiang*. Amorphous Yolk-shelled ZIF-67@Co3(PO4)2 as nonprecious bifunctional
catalysts for boosting overall water splitting[J]. Inorg. Chem. 2021, 60 (19):
14880-14891. https://doi.org/10.1021/acs.inorgchem.1c02254 (SCI)
4. Hualin Jiang, Jiezeng Chen, Yangming Shi, Pinghua Chen*, Xiaoqiu Tang,
Wei Jiang, Zilong Zou, Guanghui Wu. A wearable all-Solid-State supercapacitor
with extremely high stability based on 2D Co-HCF/GO[J]. Applied Surface
Science. 2022, 586: 152739. (SCI)
5. Xiaoqiu Tang, Guanghui Wu, Tao Wang, Pinghua Chen*, Jiezeng
Chen, Hualin Jiang*. Simultaneously remove and visually detect Ce4+ based on
nanocomposite of UiO-66-NH2/CPA-MA[J]. Adsorption Science & Technology. 2021, 2021: 1-6. https://doi.org/10.1155/2021/3090373
(SCI)
6. Yangming Shi, Pinghua Chen, Jiezeng Chen, Dezhi Chen, Hongying Shu, Hualin Jiang*,
XubiaoLuo*, Hollow Prussian blue analogue/g-C3N4 nanobox for all-solid-state
asymmetric supercapacitor[J]. Chem. Eng. J., 2021, 404: 126284. https://doi.org/10.1016/j.cej.2020.126284.
(SCI)
7. Pinghua
Chen, Huitao Zheng,
Hualin Jiang*, Jun Liu, Xinman Tu, Weibo Zhang, Bailey Phillipsc, Lei Fang,*,
Jian-ping Zou*, Oxygen-Vacancy-Rich Phenanthroline/TiO2 nanocomposites: an
integrated adsorption, detection and photocatalytic material for complex
pollutants remediation[J]. Chinese Chem. Lett., 2021, https://doi.org/10.1016/j.cclet.2021.07.002
(SCI)
8. Yifan Ren, Dongli Guo, Zhiyuan Zhao, Pinghua Chen, Fang Li, Jie
Yao, Hualin Jiang*, Yanbiao Liu*. Singlet oxygen mediated photocatalytic
Antimonite decontamination in water using nanoconfined TiO2[J]. Chemical
Engineering Journal. 2022, 435: 134832. (SCI)
9. Jiezeng Chen, Hongying Shu, Pingping Niu, Pinghua Chen*, Hualin
Jiang*. Highly sensitive detection of trace tetracycline in water using a
metal-organic framework-enabled sensor[J]. Adsorption Science & Technology,
2021, 2021: 1-11. https://doi.org/10.1155/2021/1462107
(SCI)
10. Synthesis of (ZrO2-Al2O3)/GO nanocomposite by sonochemical method and the mechanism analysis of its high defluoridation[J].J. Hazard. Mater. 381(2020)120954. (SCI).
11. Efficient antimony removal by self-assembled core-shell nanocomposite of Co3O4@rGO and the analysis of its adsorption mechanism[J]. Environmental Research. 187(2020)109657. (SCI).
12. Multifunctional electrochemical application of a novel 3D AgInS2/rGO nanohybrid for electrochemical detection and HER [J]. J. Chem. Technol. Biot. 94(11)(2019)3713-3724. (SCI).
13. Synthesis of La2(C2O4)3 nanoprisms decorated with Fe3O4@m(ZrO2‐CeO2) nanospheres and their application of effective fluoride removal [J].J. Chem. Technol. Biot.94(11)(2019)3650-3660. (SCI).
14. Highly sensitive detection of 4-NP in real water with long stability and high anti-inteference ability based on GO–Ag2CrO4 /GCE[J].Journal of the Taiwan Institute of Chemical Engineers. 97(2019)128-136. (SCI).
15. Facile synthesis of C-decorated Fe, N co-doped TiO2 with enhanced visible-light photocatalytic activity by a novel co-precursor methode[J]. Chinese Journal of Catalysis. 39 (2018) 747-759.(SCI)
16. A novel GO/PNIPAm hybrid with two functional domains can simultaneously effectively adsorb and recover valuable organic and inorganic resources[J]. Chemical Engineering Journal. 343 (2018) 607-618.(SCI)
17. Defluoridation investigation of Yttrium by laminated Y-Zr-Al tri-metal nanocomposite and analysis of the fluoride sorption mechanism[J]. Science of the Total Environment. 648 (2019) 1342-1353.(SCI)
18. Highly effictive detection of 4-nitrophenol by tremella-like indium silver sulfide modified GCE[J]. International Journal of Electrochemical Science. 13(2018) 6158-6168. (SCI)
19. Efficient fluoride removal from aqueous solution by synthetic Fe-Mg-La tri-metal nanocomposite and the analysis of its adsorption mechanism[J]. Journal of Alloys and Compounds. 738(2018)118-129(SCI).
20. Alkali-free synthesis of a novel heterostructured CeO2-TiO2 nanocomposite with high performance to reduce Cr(VI) under visible light [J]. Ceramics International. 44(2018)2709–2717.(SCI).
21. Facile synthesis of magnetic La–Zr composite as high effective adsorbent for fluoride removal. RSC Adv. 6(2016)35859-35867. (SCI).
22. 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).
23. 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)
24. Kinetic and thermodynamic study adsorbing methylene blue on nanozirconia. Applied Mechanics and Materials. 475-476(2014)1311-1319. (EI)
25. 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).
26. 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).
27. Synthesis of novel nanocomposite Fe3O4/ZrO2/chitosan and its application for removal of nitrate and phosphate. Applied Surface Science 284(2013)942-949. (SCI)
28. A novel fluorinated metal-organic framework with rhombic channels. inorg. chem. commun. 24(2012)50-54. (SCI)
29. Solvothermal Synthesis and Crystal Structure of a Zn(II) Microporous Metal-organic Framework . Chinese Journal of structural chemistry. 31(11)(2012)1676-1680. (SCI)
30. 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] 一种3D花瓣状Sb(III),Sb(V)吸附材料的制备方法(201711033104.2 ),授权号(CN107552002B),授权日:2019.8.6;
[2] 一种Y-Zr-Al三元金属复合纳米氟离子吸附的制备方法 (201710880206.1 ),授权号(CN107442090B) ,授权日:2019.7.19;
[3] 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 (201710592693.1 ),授权号(CN107199046B) ,授权日:2019.7.12;
[4] 一种可分级回收Pb2+和4-NP的吸附剂的制备方法 (201710081961.3 ),授权号(CN106824129B ) ,授权日:2019.6.14;
[5] 一种利用邻菲啰啉合铁同时向TiO2掺杂铁、氮的方法 (201510972546.8),授权号(CN105536845B) ,授权日:2019.4.5;
[6] 一种通过声化学法合成氟离子吸附剂ZrO2-Al2O3/GO的方法[P]. CN201610635383.3. 2018-9-11授权
[7] 一种三氯卡班吸附净化剂的制备方法[P]. CN201510213125.7. 2017-3-15授权.
[8] 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[P]. CN201510416375.0 . 2017-6-27授权.
[9] 一种自清洁智能吸附材料的制备方法[P]. CN201510528117.1. 2017-7-14授权.
[10] 一种一锅法合成磁性3D石墨烯复合吸附材料的方法[P]. CN201510416632.0 . 2017-10-13授权.
[11] 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[P]. CN201510972548.7. 2017-11-21授权.
[12] 一种通过一步反应稳定及增强TiO2活性的方法[P]. CN201510983219.2. 2017-12-1授权.
[13] 一种改造氧化石墨以提高其吸附酸性染料性能的方法[P]。中国国家发明专利,201410045613.7. 2015-8-19授权.
[14] 一种高吸附量高去除率的氟离子吸附剂及其制备方法[P]。中国国家发明专利,201410436424.2. 2016-8-17授权.
[15] 一种调控纳米TiO2-CeO2的形貌呈球型、哑铃型、片型的方法[P]。中国国家发明专利,201410363009.09. 2016-8-24授权.
[16] 一种磁性氟离子吸附剂及其制备方法[P]。中国国家发明专利,201410436425.7. 2016-8-17授权.
[17] 一种高效去除磷酸根、硝酸根的磁性纳米材料的制备方法[P]。中国国家发明专利,201210105595.8. 2013-7-10授权.
[18] 一种提高壳聚糖抗酸性能的方法[P]。中国国家发明专利,授权专利号:201210330556. 8. 2014-9-17授权.
[19] 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.201210537680.1. 2014-7-16授权.
[20] 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. 201210531935.3. 2014-8-6授权.
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.