化学工程与技术

詹海娟

阅读次数:     日期:2022-05-17

 

姓名: 詹海鹃

民族: 汉

学历: 博士研究生

职称: 副教授

邮箱:zhanhj@nxu.edu.cn

办公室电话:

招生专业:化学工程与技术;材料与化工(一)

研究方向:催化新材料的制备及CO2催化转化

教育背景与工作经历

1、2006年9月-2010年7月,js6668金沙登录入口应用化学专业,工学学士

2、2010年9月-2015年7月,中国科学院山西煤炭化学研究所工业催化专业,工学博士

3、2015年9月-2019年12月,js6668金沙登录入口,讲师

4、2020年1月- 至今,js6668金沙登录入口,副教授

科研成果

科研工作主要围绕催化剂新材料及钙钛矿材料的设计、合成及CO2光、热催化转化方面进行,发表各类研究性论文三十余篇,近三年发表SCI论文16篇。

科研项目:

(1)2023-2025年,主持宁夏自然科学基金项目1项,“量子点修饰型钙钛矿基催化材料的构筑及其光热协同催化CO2转化性能研究”,项目编号:2023AAC03015.

(2)2020-2022年,主持完成宁夏自然科学基金项目1项,“多金属钙钛矿型催化剂的构筑及其CO2加氢合成低碳醇反应性能研究”。

(3)2018-2022年,主持完成国家自然科学基金项目1项,“氮掺杂钙钛矿/氮掺杂石墨烯复合材料的构筑及其光催化还原CO2性能研究”,项目编号:21862013。

(4)2017-2019年,主持完成宁夏高等学校科学研究项目(优青项目)1项,“有序介孔NiO-SiC催化剂上CO2-CH4重整反应研究”。

(5)2016-2018年,主持完成宁夏自然科学基金项目(优青项目)1项,“煤基炭材料/钙钛矿复合材料催化剂的制备与应用研究”,并完成项目成果鉴定。

代表性研究论文:

[1] Shuangjiao Li, Jingzhou Lu, Haijuan Zhan*, et al. Study on the performance of photothermal catalyzed carbon dioxide hydrogenation to CH4 over doped sodium tantalate-based perovskite catalysts. Journal of Environmental Chemical Engineering,2024, 12,113108-113120.

[2] Xiang Li , Gang Wang , Haijuan Zhan*, et al. Facile synthesis of nitrogen vacancy-enriched polymeric carbon nitride via the trace manganese-induced precursor recrystallization process for photocatalytic degradation, Journal of Alloys and Compounds, 2024,970, 172546-172559.

[3] Longchao Sun, Gang Wang, Haijuan Zhan*, et al. Synergistic modulation of oxygen vacancies and heterojunc tion structure in Pd@CN @TiO2 promotes efficient photocatalytic Suzuki-Miyaura C-C coupling reactions, Applied Organometallic Chemistry, 2024,1,1-14.

[4] Gang Wang, Longchao Sun, Haijuan Zhan*, et al. Iron-nickel alloy particles with N-doped carbon “armor” as a highly selective and long-lasting catalyst for the synthesis of N-benzylaniline molecules. Nano Research 2024, 4, 2308-2319.

[5] Gang Wang, Xiang Li, Haijuan Zhan*, et al. g-C3N4/Nitrogen-doped carbon dot/silver nanoparticle-based ternary photocatalyst for water pollutant treatment. ACS Applied Nano Materials 2023, 6 (7), 5747-5758.

[6] Yajuan Chang, Gang Wang, Haijuan Zhan*, et al. Electron-modulating effects of intercalating molecules in functionalized graphene oxide: Optimizing the coordination microenvironment of Ag nanoparticles for efficient catalytic A3 coupling reactions. Molecular Catalysis 2023, 547, 113329. [7] Jiantong Wen, Gang Wang, Haijuan Zhan*, et al. Preparation of oxygen-doping nongraphitic carbon nitride via efficiency exfoliation for the application of photocatalytic degradation. Langmuir 2023, 39 (33), 11851-11863.

[8] Aijun Huang, Haijuan Zhan*, Meng Wen, et al. Visible light photocatalytic degradation performance of metal (Fe, Ce, Ni, Mn, Bi)-doped sodium tantalite perovskite. Catalysts 2023, 13 (9), 1250. (中科院三区, IF=3.9)

[9] Qiuping Zhang, Gang Wang, Haijuan Zhan*, et al. “One-Pot” construction of networked AlCl3·6H2O@β-CD composites by mechanical milling: a green and efficient catalyst for the synthesis of bisindolylmethane compounds. Catalysis Letters 2023, DOI: 10.1007/s10562-023-04297-z.

[10] Hao Sun, Cunlu Dong, Haijuan Zhan*, et al. Transition metal doping induces Ti3+ to promote the performance of SrTiO3@TiO2 visible light photocatalytic reduction of CO2 to prepare C1 product. Chemistry A European J 2022, 28 (28), e202200019.

[11] Cunlu Dong, Hao Sun, Haijuan Zhan*, et al. Transition metal (Ni, Cu, Ga, Fe) doped LaCoO3 improve surface hydrogen activation to promote low-temperature CO2 methanation. Journal of Environmental Chemical Engineering 2022, 10 (3), 107718.

[12] Pengcheng Hao, Gang Wang, Haijuan Zhan*, et al. Efficient photocatalytic-fenton oxidation performance of Fe3+/g-C3N4/NCDs nanorods: structure-activity relationship of photocatalytic degradation of water pollutants. Journal of Environmental Chemical Engineering 2022, 10 (3), 107728.

[13] Jiantong Wen, Gang Wang, Haijuan Zhan*, et al. Nongraphitic carbon nitride melem oligomer nanosheets for photocatalytic degradation of organic pollutants. ACS Applied Nano Materials 2022, 5 (9), 13659-13670.

[14] Gang Wang, Yajuan Geng, Haijuan Zhan*, et al. Exploring the in situ formation mechanism of polymeric aluminum chloride-silica gel composites under mechanical grinding conditions: as a high-performance nanocatalyst for the synthesis of xanthene and pyrimidinone compounds. ACS Omega 2022, 7 (36), 32577-32587.

[15] Yuwang Liang, Gang Wang, Haijuan Zhan*, et al. In situ preparation of a ferric polymeric aluminum chloride–silica gel nanocatalyst by mechanical grinding and its solid-phase catalytic behavior in organic synthesis. New Journal of Chemistry 2022, 46 (31), 15110-15117.

[16] Manrong Song, Gang Wang, Haijuan Zhan* ,et al. Conversion of weathered coal into high value-added humic acid by magnetically recoverable Fe3O4/LaNiO3 nanocatalysts under solid-phase grinding conditions. Catalysts 2022, 12 (4), 392.

荣誉奖励

1、2021年获第十六届宁夏自然科学优秀学术论文三等奖1项,排名1/4。

2、2020年获宁夏科技进步奖三等奖1项,排名5/7。

3、2019年获第十五届宁夏自然科学优秀学术论文三等奖1项,排名1/4。

4、2017年获“宁夏青年托举工程”人才称号。