胡曉琳檢視原始碼討論檢視歷史
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胡曉琳,女,福州大學化學學院教授。
人物簡歷
工作經歷
2000.12—至今 福州大學化學學院,教授,博導。
教育經歷
博士:福州大學化學化工學院,物理化學專業,研究方向為量子化學理論計算。
碩士:福州大學化學化工學院,物理化學專業,研究方向為晶體材料。
學士:福州大學化學系,國家理科基礎科學研究與教學人才培養基地化學專業。
科研項目
研究項目
1. 國家自然科學基金面上項目,高含鈰稀土鐵石榴石晶體的結構設計、EFG-LPE法晶體生長及磁光性能研究(51772052),2018-2021,項目負責人。
2. 國家自然科學青年基金項目,稀土摻雜氮化鎵納米發光材料的微結構設計和製備(61008040),2011-2013,項目負責人。
3. 福建省自然科學基金面上項目,鍶鈦雙摻鐵酸鉍磁光晶體的結構優化、晶體生長與性能研究(2022J01067),2022-2025,項目負責人。
4. 福建省自然科學基金面上項目,直接乙醇燃料電池用鉑基合金/石墨烯納米帶陽極催化材料的合成和催化機理研究(2016J01688),2016-2019,項目負責人。
5. 福建省自然科學基金面上項目,氮化鎵發光量子點的製備和基於第一性原理的光學性質研究(2012J01033),2012-2014,項目負責人。
橫向項目
1. 鋱鎵石榴石晶體、氧化碲晶體和α-BBO晶體的內部缺陷形成機理研究,150萬元,2020-2025,項目負責人。
學術成果
論文
1. Haipeng Liu, Chunhua Zhu, Yanduan Yang, Xin Chen, Xiaolin Hu*, Naifeng Zhuang*, Jianzhong Chen, Strong Magneto-Optical Effect of Incongruent-melting Ce,Sc,Ca:GIG Crystal with Heavy Ce3+ Doping, Journal of Materials Research and Technology, 2022, 20, 2518-2526.
2. Haipeng Liu, Jinru Shen, Xiaofeng Liu, Xin Chen, Xiaolin Hu*, Naifeng Zhuang*, Edge-defined film-fed growth of incongruent-melting Ce,Ga:GIG crystal with high magneto-optical performance, Journal of Alloys and Compounds, 2021, 888, 161456.
3. Tonglin Xia, Yao Gan, Qianrui Xu, Ning Zhou, Xin Chen, Yongfan Zhang, Xiaolin Hu*, Naifeng Zhuang*, Growth, structure and defects of (La,Sr)(Al,Ta)O3 crystal for preparing BiFeO3 thin film, Dalton Transactions, 2021, 50(38), 13306-13311.
5. Nanxi Lin, Youzhi Lin, Guanjie Wu, Xin Chen, Zongzhi Zhang, Xiaolin Hu*, Naifeng Zhuang*, Growth of high quality Si-based (Gd2Ce)(Fe4Ga)O12 thin film and prospects as a magnetic recording media, Journal of Alloys and Compounds, 2021, 875, 160086.
6. Yajing Wang, Ahui Li, Yizhen Hu, Yanping Bao, Yongfan Zhang, Xiaolin Hu* and Naifeng Zhang, High-efficiency and stable photoluminescence of CH3NH3PbBr3@CsPbBr3 perovskite quantum dots, Chemical Communications, 2021, 57(11), 1356-1359.
7. Renjie Ye, Yanping Bao, Jindan Huang, Yadi Zhao, Zihan Fan, Haixin Chen, Xiaolin Hu*, Naifeng Zhuang*, Enhanced hydrogen evolution activity and lithium-ion storage of three-dimensional porous MoS2 hybridized with graphene aerogel, Catalysis Letters, 2020, 150, 3402-3408.
8. Nanxi Lin, Shengnan Zhang, Haixin Chen, Yunjin Chen, Xin Chen, Yongfan Zhang, Xiaolin Hu*, Naifeng Zhuang*, Structure design of cubic Sr,V:CeFeO3 thin films with strong magneto-optical effect and high compatibility with Si substrate, Dalton Transactions, 2020, 49(3), 7713-7721 (Journal back cover artwork)
9. Nanxi Lin, Yajing Wang, Yadi Zhao, Lina Huo, Weixiong Shi, Xin Chen, Yongfan Zhang, Xiaolin Hu*, Naifeng Zhuang*, High magneto-optical performance of GdFeO3 thin film with high orientation and heavy Ce3+ doping, Ceramics International, 2019, 45(12), 14928-14933.
10. Haipeng Liu, Guangxing Zhan, Gonghui Wu, Caigeng Song, Xuan Wu, Qianrui Xu, Xin chen, Xiaolin Hu*, Naifeng Zhuang*, Jianzhong Chen, Improved Edge-defined film-fed growth of incongruent-melting Tb3Al5O12 crystal with high magneto-optical and thermal performances, Crystal Growth & Design, 2019, 19(3), 1525-1531.
11. Xiaolin Hu, Yizhen Hu, Jindan Huang, Ning Zhou, Yuhan Liu, Lin Wei, Xin Chen, Naifeng Zhuang*, One-step Oxidation Preparation of Unfolded and Good Soluble Graphene Nanoribbons by Longitudinal Unzipping of Carbon Nanotubes, Nanotechnology, 2018, 29, 145705.
12. Xiaolin Hu, Ning Zhou, Yizhen Hu, Yinhua Li, Nannan Chen, Bin Zhao, Yongfan Zhang, Naifeng Zhuang*, Mild preparation and high fluorescence emission efficiency of europium-doped gallium nitride nanocrystals and first-principles density functional theoretical analysis of optical properties, Journal of Materials Chemistry C, 2017, 5(31), 7904-7910.
13. Nanxi Lin, Lina Huo, Haipeng Liu, Xiao Fang, Shuting Wu, Xin Chen, Xiaolin Hu*, Naifeng Zhuang*, Preparation and properties of pure crystalline perovskite CeFeO3 thin films with vanadium doping, Journal of the American Ceramic Society, 2017, 100, 2932-2938.
14. Xiaolin Hu*, Cunli Lin, Lin Wei, Canhuang Hong, Yongfan Zhang, Naifeng Zhuang*, High electrocatalytic performance of graphene nanoribbon supported PtAu nanoalloy for direct ethanol fuel cell and theoretical analysis of anti-CO poisoning, Electrochimica Acta, 2016, 187, 560-566.[1]