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说明:本人课题组目前项目经费充足,目前项目助研岗位比较多(获得项目助研岗位学生每月项目给与助研岗位学生250元+学校配套250元=500元),实验室对研究生也有较多的研究生补助,同时还有研究生成果奖(按照发表论文级别分别给与奖励,例如,SCI一区文章奖励8000-10000元,二区也有4000元,还有做出样机或者获得其他奖项的,实验室都给与配套。)
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杨尊先,博士,教授/博导,福建省高层次人才(C类),国际信息显示学会会员、美国化学学会会员、中国真空学会高级会员、福建省物理学会会员。2004年从中国科学院上海微系统所博士毕业并人才引进到福大物信学院,作为郭太良教授平板显示团队骨干成员,一直从事纳米材料与光电器件应用方面工作。2006年分别在韩国光州科学技术学院和福大食品安全分析教育部重点实验室从事博后研究工作,2009年在澳大利亚卧龙岗大学与郭再萍教授合作研究一年。先后承担或参与国家基金(61574039,第一;61076063,第二;61204062,第二)、教育部留学回国启动基金(LXKQ201101,第一)、国家863课题(2012AA030303,主要参与人,第二)、福建省自然基金(A0510011,第一;2010J01332,第一;2015J01252,第一)等多项国家级和省部级课题,并取得了一些重要研究成果。近年来,在Nano Energy,Chem. Eng. J., J. Mater. Chem. A, ACS Appl. Mater. Inter., J. Mater. Chem., J. Mater. Chem. C, Nanoscale, Electrochim. Acta, Electrochem. Commun., Energy, Sensor Actuat. B-chem等国际杂志上发表高水平论文100余篇(SCI 70余篇,SCI一区20余篇,EI 90余篇),多以第一或通讯发表,其中,第一作者三篇论文(J. Mater. Chem. A, 2013, 1, 10395–10402; J. Mater. Chem., 2011, 21(24): 8591-8596;Sensor Actuat. B-chem, 2009, 140(2): 549-556;)连续三次分别获福建省优秀论文二等奖(第十二届、第十一届和第十届);第一作者论文(J. Mater. Chem., 2012, 22(12): 5848-5854)获2017年ESI高被引论文;以第一申请人已申请中国发明专利70余件,现已授权46件,目前授权率达100%。鉴于本人在教研方面突出表现,2019年9月获福建省自然科学奖三等奖(排名第二)和福建省科学技术进步奖一等奖(排名第九)各一项,2016年9月和2018年9月分别被获得福大“阳光奖教金”和福大“福能奖教金”奖励。同时,受到了来自英、澳、加、韩等国际著名团队关注,并多次发出合作研究及合著邀请。本人还多次应邀作为Energ. Environ. Sci., Adv. Mater., Adv. Func. Mater., Nano Energy, J. Mater. Chem. A, Nanoscale, Electrochem. Commun., ACS Appl. Mater. Inter., Energy, J. Power Source,等著名刊物论文评审专家。
教育经历(从大学本科开始,按时间倒序排序;请列出攻读研究生学位阶段导师姓名):
2001/09 - 2004/07,中国科学院上海微系统与信息技术研究所传感器国家实验室,微电子与固体电子学,博士,导师:李昕欣 研究员/博导/中国科学院特聘教授/杰青
1998/09 - 2001/07,武汉工业大学,材料学,硕士,导师:赵修建 教授/博导/长江学者/杰青
1993/09 - 1997/07,武汉工业大学,无机非金属材料,学士,导师:曹明礼 教授/博导
科研与学术工作经历(按时间倒序排序;如为在站博士后研究人员或曾进入博士后流动站(或工作站)从事研究,请列出合作导师姓名):
2004/07 - 至今,福州大学物理与信息工程学院,电子科学与技术系/平板显示技术国家地方联合实验室,教授/博导
2009/01 - 2010/01,澳大利亚卧龙岗大学,超导与电子材料研究所,访问学者
2006/03 - 2006/09,韩国光州科学技术学院,纳米生物活性材料实验室,博士后
2006/06 - 2009/03,福州大学, 化学化工学院/食品安全分析与检测技术(福州大学)教育部重点实验室,博士后,合作导师:陈国南 教授/博导/享受国务院津贴
主持或参加科研项目(课题)及人才计划项目情况(按时间倒序排序):
1、国家自然科学基金委员会,面上项目,62374032,基于发光层微结构及配体交联微封的量子点发光二极管性能调控研究,2024/01-2027/12,48.00万元,在研,主持。
2、 国家科技部,国家重点研发计划课题,2023YFB3611203,溶液法制备PN 结型NLED阵列研究,(基于PN 结的NLED 关键材料与器件研究) 2023/11-2026/10, 363.8万(其中外拨194.80万),在研,主持
3.国家科技部,国家重点研发计划课题,2021YFB3600104, Micro-LED显示系统集成关键技术研究,2021/12 – 2025/12, 619万,在研,主要参与人(排名第二)
4、国家自然科学基金委员会,面上项目,61574039,石墨烯-微纳贵金属表面激元协同调控的壳核半导体量子点发光膜可控制备及其性能研究,2016/01-2019/12,76.8万元,已结题,主持。
5、福建省科技厅,福建省自然科学基金项目,2022J01078,基于发光层限域微封的高性能量子点发光二极管研究,2022.08-2025.08,7.0万元,在研,主持。
6、福建省科技厅,福建省科技厅重大专项专题项目,2021HZ021001,大色域量子点背光显示器关键技术研发及产业化, 2021/12 – 2023/12, 800, 在研,主要参与人
7、 国家科技部,国家重点研发计划课题,2016YFB0401602,量子点墨水及印刷工艺开发,2016/07-2021/06, 120万,已结题,主要参与人
8、福建省科技厅,福建省科技厅计划项目,2018H6011,柔性量子点背光模组及其薄型化液晶平板显示终端的研发及产业化, 2018/01 – 2020/12, 40万,已结题,主要参与人
9、国家科技部,国家科技部重点研发计划课题,2016YFB0401305, 印刷OLED显示关键材料与器件技术, 2016/12 -2021/12, 600万,已结题,主要参与人
10、福建省科技厅,福建省自然科学基金项目,2015J01252,基于自组装技术的壳核复合量子点发光薄膜制备及其光学特性研究,2015.04-2018.04,5.0万元,已结题,主持。
11、国家自然科学基金委员会,青年科学基金项目,61204062,定向石墨烯纳米锥可控制备及其在场发射显示中应用研究,2013/01-2015/12,24万元,已结题,主要参与人(排名第二)。
12、国家科技部,863项目,2012AA030303,石墨烯的控制制备及其在光电领域的应用,2012/05-2014/12,74万元,已结题,主要参与人(排名第二)。
13、国家自然科学基金委员会,面上项目,61076063,SnS薄膜的掺杂改性及其在太阳电池上的应用,2011/01-2013/12,32万元,已结题,主要参与人(排名第二)。
14、福建省科技厅,福建省自然科学基金项目,2010J01332,静电组装多元金属氧化物复合定向纳米丝/纳米管气敏传感器研究,2010.06-2013.06,5.0万元,已结题,主持。
代表性研究成果和学术奖励情况(每项均按时间倒序排序)
一、期刊论文(仅不列此项时可删除该标题)
部分发表论文
1. Y. L. Ye, J. X. Wang, Y. L. Qiu, J. H. Liu, B. Q. Ye, Z. X. Yang*, Z. P. Gong, L. Xu, Y. Q. Zhou, Q. C. Huang, Z. H. Shen, W. B. Wu, S. M. Ju, L. C. Yu, Y. H. Fu, F. S. Li, T. L. Guo, Ultra-low EQE roll-off and marvelous efficiency perovskite quantum-dots light-emitting-diodes achieved by ligand passivation. Nano Energy, 2021, 90: 106583. [IF: 17.6]
2. Yuliang Ye, Zhou Cui, Zunxian Yang*, Zhiwei Zeng, Zongyi Meng, Hongyi Hong, Songwei Ye, Zhiming Cheng, Qianting Lan, Jiaxiang Wang, Ye Chen, Hui Zhang, Yuting Bai, Zhanlin Yang, Jiajie Hong, Xudong Jiang, Benfang Liu, Baisheng Sa, Fushan Li, Tailiang Guo, Zhenzhen Weng, Yongyi Chen, A multifunctional interface optimization strategy for efficient Quasi-2D blue perovskite Light-Emitting diodes. Chemical Engineering Journal, 2024, 483: 149132. [IF: 15.1]
3. Zhiwei Zeng, Yuhan Meng, Zunxian Yang*, Yuliang Ye, Qiuxiang Lin, Zongyi Meng, Hongyi Hong, Songwei Ye, Zhiming Cheng, Qianting Lan, Jiaxiang Wang, Ye Chen, Hui Zhang, Yuting Bai, Xudong Jiang, Benfang Liu, Jiajie Hong, Tailiang Guo, Fushan Li, Yongyi Chen, Zhenzhen Weng, Efficient CsPbBr3 Perovskite Light-Emitting Diodes via Novel Multi-Step Ligand Exchange Strategy Based on Zwitterionic Molecules. ACS Applied Materials & Interfaces, 2024, 16(8): 10389-10397. [IF: 9.5]
4. Z. Yang*, Y. Zhang, J. Liu, J. Ai, S. Lai, Z. Zhao, B. Ye, Y. Ruan, T. Guo, X. Yu, G. Chen, Y. Lin, S. Xu, Ultrastable Quantum Dot Composite Films under Severe Environments. ACS Appl Mater Interfaces, 2018, 10(18): 15880-15887. [IF: 9.5]
5.Yinglin Qiu, Zhipeng Gong, Lei Xu, Qiaocan Huang, Zunxian Yang*, Bingqing Ye, Yuliang Ye, Zongyi Meng, Zhiwei Zeng, Zihong Shen, Wenbo Wu, Yuanqing Zhou, Zeqian Hong, Zhiming Cheng, Songwei Ye, Hongyi Hong, Qianting Lan, Fushan Li, Tailiang Guo, Sheng Xu, Performance Enhancement of Quantum Dot Light-Emitting Diodes via Surface Modification of the Emitting Layer. ACS Applied Nano Materials, 2022, 5(2): 2962-2972. [IF: 5.9]
6. J. Liu, Z. Yang*, Z. Gong, Z. Shen, Y. Ye, B. Yang, Y. Qiu, B. Ye, L. Xu, T. Guo, S. Xu, Weak Light-Stimulated Synaptic Hybrid Phototransistors Based on Islandlike Perovskite Films Prepared by Spin Coating. ACS Appl Mater Interfaces, 2021, 13(11): 13362-13371. [IF: 9.5]
7. J. Liu, Z. Shen, Y. Ye, Z. Yang*, Z. Gong, B. Ye, Y. Qiu, Q. Huang, L. Xu, Y. Zhou, W. Wu, F. Li, T. Guo, Mixed-Halide Perovskite Film-Based Neuromorphic Phototransistors for Mimicking Experience-History-Dependent Sensory Adaptation. ACS Appl Mater Interfaces, 2021, 13(40): 47807-47816. [IF: 9.5]
8. Z. X. Yang, K. Zheng, G. Z. Lu, B. Q. Ye, S. M. Lin, J. H. Liu, Y. L. Ye, Y. F. Zhang, J. H. Huang, T. L. Guo, X. B. Yu*, G. X. Chen, Easily controlled 2D GO film as electronic barrier layer to realize charge transport equilibrium of QLED with greatly enhanced EQE. Organic Electronics, 2020, 83: 105761 [IF: 3.2]
9. Bingqing Ye, Lei Xu, Wenbo Wu, Yuliang Ye, Zunxian Yang*, Yinglin Qiu, Zhipeng Gong, Yuanqing Zhou, Qiaocan Huang, Zihong Shen, Zeqian Hong, Zongyi Meng, Zhiwei Zeng, Zhiming Cheng, Songwei Ye, Hongyi Hong, Qianting Lan, Fushan Li, Tailiang Guo, Sheng Xu, Construction of Hierarchical SnO2@NC@MoS2/C Nanotubes for Ultrastable Lithium- and Sodium-Ion Batteries. ACS Sustainable Chemistry & Engineering, 2022, 10(10): 3166-3179. [IF: 8.4]
10. S. L. Ju, X. W. Chen, Z. X. Yang*, G. L. Xia, X. B. Yu, Atomic scale understanding of aluminum intercalation into layered TiS2 and its electrochemical properties. Journal of Energy Chemistry, 2020, 43: 116-120. [IF: 13.1]
11. Chongyang Yuan, Wei Chen, Zunxian Yang*, Zhenguo Huang, Xuebin Yu*, The effect of various cations/anions for MgH2 hydrolysis reaction. Journal Of Materials Science & Technology, 2021, 73: 186-192. [IF: 10.9]
12. Zihong Shen, Zunxian Yang*, Yuanqing Zhou, Yuliang Ye, Bingqing Ye, Qiaocan Huang, Wenbo Wu, Hongyi Hong, Zeqian Hong, Zongyi Meng, Zhiwei Zeng, Songwei Ye, Zhiming Cheng, Qianting Lan, Jiaxiang Wang, Ye Chen, Hui Zhang, Tailiang Guo, Yun Ye, Zhenzhen Weng, Yongyi Chen, Ultralow-power consumption photonic synapse transistors based on organic array films fabricated using a particular prepatterned-guided crystallizing strategy. Journal of Materials Chemistry C, 2023, 11(9): 3213-3226. [IF: 6.4]
13. B. Q. Ye, L. Xu, W. B. Wu, Y. L. Ye, Z. X. Yang*, J. W. Ai, Y. L. Qiu, Z. P. Gong, Y. Q. Zhou, Q. C. Huang, Z. H. Shen, F. S. Li, T. L. Guo, S. Xu, Encapsulation of 2D MoS2 nanosheets into 1D carbon nanobelts as anodes with enhanced lithium/sodium storage properties. Journal of Materials Chemistry C, 2022, 10(9): 3329-3342. [IF: 6.4]
14. Hongyi Hong, Zihong Shen, Zunxian Yang*, Yuliang Ye, Bingqing Ye, Yuanqing Zhou, Qiaocan Huang, Wenbo Wu, Zongyi Meng, Zhiwei Zeng, Songwei Ye, Zhiming Cheng, Qianting Lan, Jiaxiang Wang, Ye Chen, Hui Zhang, Tailiang Guo, Fushan Li, Zhenzhen Weng, Yongyi Chen, Highly uniform photonic synapse arrays based on TIPS-pentacene nanowires/CsPbBr3 heterojunctions. Journal of Materials Chemistry C, 2023, 11(44): 15616-15623. [IF: 6.4]
15. Bingqing Ye, Zhou Cui, Zunxian Yang*, Wenbo Wu, Yuliang Ye, Zihong Shen, Yuanqing Zhou, Qiaocan Huang, Songwei Ye, Zhiming Cheng, Hongyi Hong, Zongyi Meng, Zhiwei Zeng, Qianting Lan, Jiaxiang Wang, Ye Chen, Hui Zhang, Tailiang Guo, Yun Ye, Baisheng Sa*, Zhenzhen Weng, Yongyi Chen, 3D hierarchical networks constructed from interlayer-expanded MoS2 nanotubes and rGO as high-rate and ultra-stable anodes for lithium/sodium-ion batteries. Journal of Materials Chemistry C, 2023, 11(39): 13228-13243. [IF: 6.4]
16. J. H. Liu, Z. X. Yang*, B. Q. Ye, Z. W. Zhao, Y. S. Ruan, T. L. Guo, X. B. Yu, G. X. Chen, S. Xu, A review of stability-enhanced luminescent materials: fabrication and optoelectronic applications. Journal of Materials Chemistry C, 2019, 7(17): 4934-4955. [IF: 6.4]
17. J. H. Liu, Z. X. Yang*, S. M. Lin, K. Zheng, Y. L. Ye, B. Q. Ye, Z. P. Gong, Y. L. Qiu, L. Xu, T. L. Guo, S. Xu, Compact and ultrathin multi-element oxide films grown by temperature-controlled deposition and their surface-potential based transistor theoretical simulation model. Journal of Materials Chemistry C, 2020, 8(22): 7358-7368. [IF: 6.4]
18. Zunxian Yang*, Wenhuan Yan, Jun Lv, Kun Qian, Yuxiang Zhang, Jiahui Liu, Jingwei Ai, Tailiang Guo, Enguo Chen, Liqin Hu, A simple spraying process greatly enhanced field emission of novel T-ZnO-supported CNT emitters. Journal of Materials Chemistry C, 2016, 4(8): 1658-1664. [IF: 6.4]
19. L. Xu, Z. Gong, Y. Qiu, W. Wu, Z. Yang*, B. Ye, Y. Ye, Z. Cheng, S. Ye, Z. Shen, Y. Zhou, Q. Huang, Z. Hong, Z. Meng, Z. Zeng, H. Hong, Q. Lan, T. Guo, S. Xu, Superstructure MOF as a framework to composite MoS2 with rGO for Li/Na-ion battery storage with high-performance and stability. Dalton Trans, 2022, 51(9): 3472-3484. [IF: 4.0]
20. Zhaoxia Yuan, Luwen Wang, Gaofeng Wang, Zunxian Yang*, Linxi Dong, Xuebin Yu, Composites of SnSb Nanoparticles Embedded in Porous Carbon Nanofibers Wrapped with Reduced Graphene Oxide for Sodium Storage. ACS Applied Nano Materials, 2021, 4(1): 826-833. [IF: 5.90]
21. Yuanqing Zhou, Zunxian Yang*, Qiaocan Huang, Yuliang Ye, Bingqing Ye, Zihong Shen, Wenbo Wu, Zhiwei Zeng, Zongyi Meng, Hongyi Hong, Songwei Ye, Zhiming Cheng, Qianting Lan, Jiaxiang Wang, Ye Chen, Hui Zhang, Tailiang Guo, Fushan Li, Yongyi Chen, Zhenzhen Weng, Dual-function ligand surface control to achieve high efficiency and brightness perovskite quantum dots LED devices. Vacuum, 2023, 214: 112165. [IF: 4.0]
22. Qiaocan Huang, Zunxian Yang*, Yuliang Ye, Zongyi Meng, Zhiwei Zeng, Hongyi Hong, Songwei Ye, Zhiming Cheng, Qianting Lan, Bingqing Ye, Yuanqing Zhou, Zihong Shen, Wenbo Wu, Jiaxiang Wang, Ye Chen, Hui Zhang, Tailiang Guo, Fushan Li, Yongyi Chen, Zhenzhen Weng, Physically Controlled Nucleation for Tunable Quantum Dots and Interface Defect Modification in Light-Emitting Diodes. ACS Applied Nano Materials, 2024, 7(2): 1896-1906. [IF: 5.9]
23. Zunxian Yang*, Qing Meng, Zaiping Guo, Xuebin Yu, Tailiang Guo, Rong Zeng, Highly uniform TiO2/SnO2/carbon hybrid nanofibers with greatly enhanced lithium storage performance. Journal Of Materials Chemistry A, 2013, 1(35): 10395.
[IF: 11.9]
24. Z. W. Tang, S. F. Li, Z. X. Yang*, X. B. Yu, Ammonia borane nanofibers supported by poly(vinyl pyrrolidone) for dehydrogenation. Journal Of Materials Chemistry, 2011, 21(38): 14616-14621. [IF: 11.9]
25. Zunxian Yang*, Guodong Du, Qing Meng, Zaiping Guo, Xuebin Yu, Zhixin Chen, Tailiang Guo, Rong Zeng, Synthesis of uniform TiO2@carbon composite nanofibers as anode for lithium ion batteries with enhanced electrochemical performance. Journal Of Materials Chemistry, 2012, 22(12): 5848. [IF: 11.9]
26. Z. P. Gong, Z. X. Yang*, Z. H. Shen, Y. L. Qiu, L. Xu, B. Q. Ye, Y. L. Ye, W. B. Wu, Y. Q. Zhou, Q. C. Huang, Z. Q. Hong, Z. Y. Meng, Z. W. Zeng, Z. M. Cheng, S. W. Ye, H. Y. Hong, Q. T. Lan, F. S. Li, T. L. Guo, S. H. Wang, S. Xu, Solution processed thin-film transistors with bilayer channel consisting of ZnO nanoparticles and SnO2. Optical Materials, 2022, 128: 112401. [IF: 3.90]
27. Qiaocan Huang, Zunxian Yang*, Yuanqing Zhou, Yuliang Ye, Bingqing Ye, Zihong Shen, Wenbo Wu, Zongyi Meng, Zhiwei Zeng, Hongyi Hong, Songwei Ye, Zhiming Cheng, Qianting Lan, Jiaxiang Wang, Ye Chen, Hui Zhang, Tailiang Guo, Fushan Li, Yongyi Chen, Zhenzhen Weng, Effective growth strategy of colloidal quantum dots with low defects and high brightness. Optical Materials, 2023, 138: 113628. [IF: 3.90]
28. Ganzhen Lu, Zunxian Yang*, Kang Zheng, Shimin Lin, Jiahui Liu, Bingqing Ye, Jianhua Huang, Yufei Zhang, Yuliang Ye, Tailiang Guo, Gengxu Chen, Metal-enhanced fluorescence of interlaminar composite film with self-assembled quantum Dots/Au@SiO2 microarchitecture. Organic Electronics, 2020, 77: 105540.
[IF: 3.20]
29. Wenbo Wu, Zunxian Yang*, Zihong Shen, Yuliang Ye, Bingqing Ye, Yuanqing Zhou, Qiaocan Huang, Songwei Ye, Zhiming Cheng, Hongyi Hong, Zongyi Meng, Zhiwei Zeng, Qianting Lan, Jiaxiang Wang, Ye Chen, Hui Zhang, Tailiang Guo, Yun Ye, Zhenzhen Weng, Yongyi Chen, Double‐Carbon‐Layer Core–Shell Complex Sulfides Derived from Bimetallic Metal–Organic Frameworks for Li‐/Na‐Ion Battery Storage. Energy Technology, 2023, 11(10): 2300529. [IF: 3.8]
30. Wenbo Wu, Zunxian Yang*, Zihong Shen, Yuliang Ye, Bingqing Ye, Yuanqing Zhou, Qiaocan Huang, Songwei Ye, Zhiming Cheng, Hongyi Hong, Zongyi Meng, Zhiwei Zeng, Qianting Lan, Jiaxiang Wang, Ye Chen, Hui Zhang, Tailiang Guo, Yun Ye, Zhenzhen Weng, Yongyi Chen, Novel Gas‐Solid Reaction Grown Small‐Size Co‐MOFs on Electrospun Porous Carbon Nanofibers for High Capacity Lithium Storage. Physica Status Solidi (A), 2023, 220(12): 2300029. [IF: 2.0]
31. Zunxian Yang*, Shimin Lin, Jiahui Liu, Kang Zheng, Ganzhen Lu, Bingqing Ye, Jianhua Huang, Yufei Zhang, Yuliang Ye, Tailiang Guo, Gengxu Chen, High performance phototransistors with organic/quantum dot composite materials channels. Organic Electronics, 2020, 78: 105565. [IF: 3.20]
32. Zunxian Yang*, Guodong Du, Zaiping Guo, Xuebin Yu, Zhixin Chen, Tailiang Guo, Huakun Liu, TiO2(B)@carbon composite nanowires as anode for lithium ion batteries with enhanced reversible capacity and cyclic performance. Journal Of Materials Chemistry, 2011, 21(24): 8591. [IF: 12.732]
33.Zunxian Yang*, Qing Meng, Wenhuan Yan, Jun Lv, Zaiping Guo, Xuebin Yu, Zhixin Chen, Tailiang Guo, Rong Zeng, Novel three-dimensional tin/carbon hybrid core/shell architecture with large amount of solid cross-linked micro/nanochannels for lithium ion battery application. Energy, 2015, 82: 960-967. [IF: 9.0]
34. Haidong Pang, Zunxian Yang*, Jun Lv, Wenhuan Yan, Tailiang Guo, Novel MnOx@Carbon hybrid nanowires with core/shell architecture as highly reversible anode materials for lithium ion batteries. Energy, 2014, 69: 392-398. [IF: 9.0]
35. Zunxian Yang*, Qing Meng, Zaiping Guo, Xuebin Yu, Tailiang Guo, Rong Zeng, Highly reversible lithium storage in uniform Li4Ti5O12/carbon hybrid nanowebs as anode material for lithium-ion batteries. Energy, 2013, 55(0): 925-932. [IF: 9.0]
36. Fan Guo, Yun Ye, Zunxian Yang, Chunyan Hong, Liqin Hu, Chaoxing Wu, Tailiang Guo, The in situ preparation of novel α-Fe2O3 nanorods/CNTs composites and their greatly enhanced field emission properties. Applied Surface Science, 2013, 270(0): 621-626. [IF: 6.70]
37. Z. Yang*, J. Lv, H. Pang, W. Yan, K. Qian, T. Guo, Z. Guo, Facile Synthesis of Coaxial CNTs/MnOx-Carbon Hybrid Nanofibers and Their Greatly Enhanced Lithium Storage Performance. Sci. Rep., 2015, 5: 17473. [IF: 4.80]
38. Z. Yang*, K. Qian, J. Lv, W. Yan, J. Liu, J. Ai, Y. Zhang, T. Guo, X. Zhou, S. Xu, Z. Guo, Encapsulation of Fe3O4 Nanoparticles into N, S co-Doped Graphene Sheets with Greatly Enhanced Electrochemical Performance. Sci Rep, 2016, 6: 27957.
[IF: 4.80]
39. Zunxian Yang, Yufei Zhang, Jianhua Huang, Bingqing Ye, Shimin Lin, Jiahui Liu, Yuliang Ye, Kang Zheng, Ganzhen Lu, Tailiang Guo, Xuebin Yu*, Gengxu Chen, Sandwich architecture of graphene/MoS2 composite as anodes for enhanced reversible lithium and sodium storage. International Journal Of Energy Research, 2020, 44(11): 8314-8327. [IF: 4.60]
40. Z. X. Yang, J. H. Huang, Y. F. Zhang, B. Q. Ye, S. M. Lin, J. H. Liu, Y. L. Ye, K. Zheng, G. Z. Lu, T. L. Guo, X. B. Yu, Template-Free Synthesis of Hierarchical Composite Nanotubes with Superior Lithium and Sodium Storage Performance. Energy Technology, 2020, n/a(n/a): 1901356. [IF: 3.80]
41. Q. F. Meng, Y. Q. Huang, J. K. Ye, G. L. Xia, G. F. Wang, L. X. Dong*, Z. X. Yang*, X. B. Yu*, Electrospun carbon nanofibers with in-situ encapsulated Ni nanoparticles as catalyst for enhanced hydrogen storage of MgH2. Journal Of Alloys and Compounds, 2021, 851: 156874. [IF: 6.20]
42. Keyao Wang, Shunlong Ju, Qili Gao, Guanglin Xia, Gaofeng Wang, Haixia Yan, Linxi Dong, Zunxian Yang*, Xuebin Yu, Porous sulfurized poly(acrylonitrile) nanofiber as a long-life and high-capacity cathode for lithium–sulfur batteries. Journal Of Alloys and Compounds, 2021, 860: 158445. [IF: 6.20]
43.Z. X. Yang*, G. D. Du, C. Q. Feng, S. A. Li, Z. X. Chen, P. Zhang, Z. P. Guo, X. B. Yu, G. N. Chen, S. Z. Huang, H. K. Liu, Synthesis of uniform polycrystalline tin dioxide nanofibers and electrochemical application in lithium-ion batteries. Electrochimica Acta, 2010, 55(19): 5485-5491. [IF: 6.60]
44. Z. Yang, G. Du, Z. Guo, X. Yu, S. Li, Z. Chen, P. Zhang, H. Liu, Plum-branch-like carbon nanofibers decorated with SnO2 nanocrystals. Nanoscale, 2010, 2(6): 1011-7. [IF: 6.70]
45. Z. Yang*, G. Du, Z. Guo, X. Yu, Z. Chen, T. Guo, R. Zeng, Encapsulation of TiO(2)(B) nanowire cores into SnO(2)/carbon nanoparticle shells and their high performance in lithium storage. Nanoscale, 2011, 3(10): 4440-7. [IF: 6.70]
46. Z. X. Yang, Y. Huang, G. Chen, Z. P. Guo, S. Y. Cheng, S. Z. Huang, Ethanol gas sensor based on Al-doped ZnO nanomaterial with many gas diffusing channels. Sensors and Actuators B-chemical, 2009, 140(2): 549-556. [IF: 8.40]
47. Y. L. Ye, Z. X. Yang*, Z. W. Zhao, K. Zheng, B. Y. Yang, J. H. Liu, B. Q. Ye, Z. P. Gong, Y. L. Qiu, T. L. Guo, S. Xu, Efficient multi-shell CuInS2/ZnS/ZnS quantum-dots based light-emitting diodes: Time-controlled synthesis of quantum-dots and carrier balance effects of PEI. Optical Materials, 2020, 106: 109926. [IF: 3.90]
48. X. B. Yu, Z. X. Yang, Y. H. Guo, G. Li, Thermal decomposition performance of Ca(BH4)(2)/LiNH2 mixtures. Journal Of Alloys and Compounds, 2011, 509: S724-S727. [IF: 6.20]
49. Z. X. Yang*, G. D. Du, Q. Meng, Z. P. Guo, X. B. Yu, Z. X. Chen, T. L. Guo, R. Zeng, Dispersion of SnO2 nanocrystals on TiO2(B) nanowires as anode material for lithium ion battery applications. RSC Advances, 2011, 1(9): 1834-1840. [IF: 3.90]
50. Z. X. Yang*, G. D. Du, Z. P. Guo, X. B. Yu, Z. X. Chen, T. L. Guo, N. Sharma, H. K. Liu, TiO2(B)@anatase hybrid nanowires with highly reversible electrochemical performance. Electrochemistry Communications, 2011, 13(1): 46-49. [IF: 5.40]
51. Zunxian Yang*, Guodong Du, Zaiping Guo, Xuebin Yu, Zhixin Chen, Peng Zhang, Guonan Chen, Huakun Liu, Easy preparation of SnO2@carbon composite nanofibers with improved lithium ion storage properties. Journal Of Materials Research, 2011, 25(8): 1516-1524. [IF: 2.70]
52. X. B. Yu, Z. X. Yang, H. K. Liu, D. M. Grant, G. S. Walker, The effect of a Ti-V-based BCC alloy as a catalyst on the hydrogen storage properties of MgH2. International Journal Of Hydrogen Energy, 2010, 35(12): 6338-6344. [IF: 7.20]
53. X. B. Yu, Y. H. Guo, D. L. Sun, Z. X. Yang, A. Ranjbar, Z. P. Guo, H. K. Liu, S. X. Dou, A Combined Hydrogen Storage System of Mg(BH4)2−LiNH2with Favorable Dehydrogenation. The Journal of Physical Chemistry C, 2010, 114(10): 4733-4737.
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55. Z. X. Yang*, Y. Huang, X. X. Li, G. A. Chen, Investigation and simulation on the dynamic shock response performance of packaged high-g MEMS accelerometer versus the impurity concentration of the piezoresistor. Microelectronics Reliability, 2009, 49(5): 510-516. [IF: 1.60]
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二、授权发明专利(仅不列此项时可删除该标题,标题序号按实际情况编排)
1. 杨尊先,郭太良,孟宗羿,叶雨亮,陈烨,张辉,张永爱,周雄图,吴朝兴,李福山,立方型PN结SnSe/ZnSe/SnSe/ZnSe多阱核壳量子阱材料及制备方法,授权时间:2023.10.10,中国,ZL202211580431.0
2. 杨尊先,郭太良,蓝倩婷,王嘉祥,陈烨,张辉,张永爱,周雄图,吴朝兴,李福山,具有纳米立方体结构的PN结ZnS/Cu2Se/ZnS量子阱光电材料及其制备方法,授权时间:2023.10.31,中国,ZL202211580428.9
3. 杨尊先,郭太良,蓝倩婷,王嘉祥,陈烨,张辉,张永爱,周雄图,吴朝兴,李福山,一种球型核壳结构的CdS-Cu2S-CdS量子阱材料及制备方法,授权时间:2024.02.04,中国,ZL202211580456.0
4. 杨尊先,郭太良,洪宏艺,洪泽乾,叶淞玮,程志明,叶芸,吴朝兴,胡海龙,李福山,一种纳米板异质结构的CdS-CdTe-CdS量子阱材料及其制备方法,授权时间:2023.09.08,中国,ZL202211580457.5
5. 杨尊先,郭太良,刘佳慧,徐雷,林诗敏,陈恩果,周雄图,吴朝兴,李福山,王嘉祥,基于氧化石墨烯钝化的钙钛矿薄膜的发光二极管器件的制备方法,授权时间:2024.02.07,中国,ZL202010828201.6
6. 杨尊先,郭太良,叶雨亮,徐雷,张玉飞,周雄图,陈耿旭,陈恩果,余路成,基于量子点反溶剂去除发光层中有机物量子点发光二极管及其制备方法,授权时间:2024.02.07,中国,ZL202010828202.0
7. 杨尊先,郭太良,杨保用,龚智鹏,郑康,陈恩果,周雄图,陈耿旭,张永爱,黄桥灿,一种基于有机物聚合的量子点发光二极管及其制备方法, 授权时间:2023.11.03,中国,ZL202010829285.5
8. 杨尊先, 郭太良, 刘佳慧, 龚智鹏,张玉飞,陈恩果,吴朝兴,陈耿旭,李福山,王嘉祥,一种含有银纳米颗粒的钙钛矿发光二极管器件的制备方法,授权时间:2024.02.06, 中国,ZL202010829314.8
9. 杨尊先, 郭太良, 叶冰清, 邱荧琳, 陆干臻, 陈恩果, 叶芸, 陈耿旭, 李福山, 汤成仁,一种使用两亲性二氧化硅离子掺杂的钙钛矿薄膜及发光二极管制备方法, 授权时间:2023.12.12, 中国,ZL202010829057.8
10. 杨尊先,郭太良,张玉飞,黄建华,郑康,胡海龙,周雄图,陈耿旭,徐胜,吴凌杰,一种基于一维碳材料的柔性纤维荧光纸的制备方法,授权时间:2019.11.12,中国,ZL201810061262.7
11. 杨尊先,郭太良,黄建华,郑康,陆干臻,胡海龙,周雄图,林志贤,李福山,林思维,一种基于棉布的柔性荧光布及其制备方法,授权时间:2019.09.13,中国,ZL201810061803.6
12. 杨尊先,郭太良,张玉飞,黄建华,郑康,胡海龙,周雄图,陈耿旭,徐胜,王丽萍,一种基于蛋白纤维或细胞纤维素的柔性荧光纸的制备方法,授权时间:2019.09.13,中国,ZL201810063395.8
13. 杨尊先,郭太良,陆干臻,赵志伟,阮玉帅,胡海龙,周雄图,陈耿旭,唐谦,林媛媛,一种金/二氧化硅壳核微结构与二硫化钼复合光学膜的制备方法,授权时间:2019.08.09,中国,ZL201810061244.9
14. 杨尊先,郭太良,黄建华,郑康,陆干臻,叶芸,周雄图,陈耿旭,李福山,陈剑明,一种基于垂直孔道SBA-15限域的量子点发光二极管器件的制作方法,授权时间:2019.08.09,中国,ZL201810061813.X
15. 杨尊先,郭太良,郑康,陆干臻,赵志伟,胡海龙,叶芸,陈耿旭,李福山,林俊杰,一种基于垂直孔道SBA-15限域的量子点发光膜的制备方法,授权时间:2019.07.09,中国,ZL201810061802.1
16. 杨尊先,郭太良,胡海龙,周雄图,严文焕,刘佳慧,一种等离子体激元增强量子点光学膜的制备方法,授权时间:2018.01.12,中国,ZL201510281169.3
17. 杨尊先,郭太良,胡海龙,周雄图,吕军,杨洋,一种基于等离激元增强光控量子点薄膜晶体管的制备方法,授权时间:2018.01.12,中国,ZL201510281343.4
18. 杨尊先,郭太良,徐胜,周雄图,钱堃,杨洋,一种金属量子点/有机半导体复合导电沟道薄膜晶体管的制备方法,授权时间:2017.10.20,中国,ZL201510281075.6
19. 杨尊先,郭太良,徐胜,叶芸,钱堃,刘佳慧, 一种金属/有机壳核量子点-半导体量子点复合发光膜的制备方法, 授权时间:2017.09.22,中国,ZL201510281254.X
20. 杨尊先,郭太良,胡海龙,徐胜,刘佳慧,杨洋,一种有机半导体纳米线阵列导电沟道薄膜晶体管制备方法,授权时间:2017.09.22,中国,ZL201510344794.8
21. 杨尊先,郭太良,胡海龙,周雄图,吕军,杨洋,一种基于金属/有机壳核量子点-半导体量子点复合结构光控薄膜晶体管的制备方法,授权时间:2017.06.06,中国,ZL201510281381.X
22. 杨尊先,郭太良,徐胜,周雄图,严文焕,刘佳慧,一种金属膜片阵列/有机半导体复合导电沟道薄膜晶体管的制备方法,授权时间:2017.07.04,中国,ZL201510281077.5
23. 杨尊先,郭太良,胡海龙,徐胜,严文焕,一种原位生长量子点光学膜的制备方法,授权时间:2016.03.09,中国,ZL201410297048.3
24. 杨尊先,郭太良,艾经伟,刘佳慧,张余祥,胡海龙,徐胜,陈耿旭,李福山,林诗敏, 一种基于电解液溶剂热插锂剥离制备单层石墨烯的方法,授权时间:2020.02.07,中国,ZL201810063248.0
25. 杨尊先, 郭太良, 郑康, 陆干臻, 赵志伟, 胡海龙, 周雄图, 陈耿旭, 李福山, 林媛媛,一种具有垂直孔道的SBA-15多孔薄膜的制备方法, 授权时间:2021.09.28,中国,ZL201810061817.8
26. 杨尊先; 郭太良; 阮玉帅; 叶冰清; 艾经伟; 胡海龙; 周雄图; 陈耿旭; 李福山; 张玉飞,一种用于锂离子电池的碳/金属硫化物/碳三维多孔阵列复合电极材料的制备方法,授权时间:2020.10.09,中国,ZL201810061272.0
27. 杨尊先, 郭太良, 叶冰清, 艾经伟, 刘佳慧, 张余祥, 林志贤, 陈耿旭, 李福山, 林诗敏, 一种基于电解液溶剂热插锂剥离制备单层二硫化钼的方法, 授权时间:2020.05.08,中国,ZL201810063026.9
28. 杨尊先,郭太良,庞海东,胡海龙,徐胜,吕军,一种基于3D打印技术制备阴阳极同轴锂离子电池的方法,授权时间:2017.03.08,中国,ZL201410237605.2
29. 杨尊先,郭太良,吕军,胡海龙,徐胜,严文焕,一种基于3D打印技术制备锡碳阳极/磷酸铁锂阴极锂离子电池的方法,授权时间:2017.02.08,中国,ZL201410237602.9
30. 杨尊先,郭太良,严文焕,胡海龙,徐胜,吕军, 一种锂电池的3D打印方法,授权时间:2017.01.17,中国,ZL201410237589.7
31. 杨尊先,郭太良,严文焕,胡海龙,徐胜,吕军, 一种应用于锂电池3D打印的材料制备方法,授权时间:2017.01.25,中国,ZL201410237586.3
32. 杨尊先,郭太良,严文焕,胡海龙,徐胜,吕军, 一种圆环形锂电池的3D打印工艺,授权时间:2016.10.05,中国,ZL201410237593.3
33. 杨尊先,郭太良,吕军,胡海龙,徐胜,严文焕,一种基于同轴3D打印技术制备并排阴阳极锂离子电池的方法,授权时间:2016.09.07,中国,ZL201410238059.4
34. 杨尊先,郭太良,胡海龙,徐胜,吕军,一种基于量子点膜层导电沟道的场效应管的制备方法,授权时间:2016.09.07,中国,ZL201410297058.7
35. 杨尊先,郭太良,吕军,胡海龙,徐胜,严文焕,一种基于3D打印技术制备锂离子电池叠层垂直交叉电极的方法,授权时间:2016.09.07,中国,ZL201410237597.1
36. 杨尊先,郭太良,庞海东,严文焕,吕军,胡海龙,徐胜,一种以碳纳米管为核制备同轴复合纳米材料的方法,授权时间:2016.01.27,中国,ZL201310650049.7
37. 杨尊先,郭太良,庞海东,胡海龙,徐胜,李福山,李松,一种一维壳核结构碳包覆MnOx纳米储能材料及其制备方法,授权时间:2015.03.04,中国,ZL201210564956.5
38. 杨尊先,郭太良,李松,胡海龙,徐胜,李福山,庞海东,一种由植物纤维制备锂电材料的方法,授权时间:2015.02.04,中国,ZL201310030425.2
39. 杨尊先,郭太良,庞海东,李福山,徐胜,胡海龙,李松,一种一维壳核/多孔结构锡碳锂电电极材料及制备方法,授权时间:2014.07.30,中国,ZL201210555920.0
40. 杨尊先,郭太良,庞海东,周雄图,徐胜,李福山,李松,一种以CuO纳米线为模板制备C/Sn@C/C一维复合纳米管的方法,授权时间:2014.07.30,中国,ZL201210556114.5
41. 杨尊先,郭太良,李松,李福山,徐胜,张永爱,一种用于锂离子电池的一维壳核结构材料及其制备方法,授权时间:2014.04.09,中国,ZL201110172936.9
42. 杨尊先,郭太良,李福山,徐胜,张永爱,叶芸,李松,王灵婕,一种多元金属氧化物气敏传感器气敏元件及其制备方法,授权时间:2013.12.11,中国,ZL201210057850.6
43. 杨尊先,郭太良,李松,李福山,王灵婕,徐胜,张永爱,一种用于锂离子电池的碳限域包覆Sn/MgO纳米线阵列的制备方法,授权时间:2013.10.30,中国,ZL201110177982.8
44. 杨尊先,郭太良,李松,李福山,王灵婕,叶芸,张永爱,胡利勤,阳极氧化铝模板制作方法及利用该模板制作场发射阴极阵列材料方法,授权时间:2013.04.17,中国,ZL201110174169.5
45. 杨尊先,郭太良,林诗敏,张玉飞,黄建华,胡海龙,周雄图,陈耿旭,徐胜,吴志铭,一种基于金/二氧化硅壳核微结构与二硫化钼复合薄膜晶体管的制备方法,授权时间:2020.08.11,中国,ZL201810061249.1
46. 杨尊先,郭太良,阮玉帅,叶冰清,艾经伟,胡海龙,张永爱,陈耿旭,李福山,张玉飞,一种类石墨烯/金属硫化物/碳复合电极材料的制备方法,授权时间:2020.08.11,中国,ZL201810064130.X
47. 杨尊先,郭太良,叶冰清,艾经伟,刘佳慧,张余祥,胡海龙,陈耿旭,徐胜,林诗敏,一种基于熔融碱金属液插入剥离制备单层硫化钼的方法,授权时间:2020.05.08,中国,ZL201810061274.X
三、获得学术奖励(仅不列此项时可删除该标题,标题序号按实际情况编排)
1.杨尊先(1/6),具有极好锂存储特性的高一致性TiO2/SnO2/carbon复合纳米纤维材料,福建省科学技术协会、福建省科技厅、福建省教育厅,第十二届福建省自然科学优秀论文二等奖,省部二等奖,获奖时间:2016.12.12
2.杨尊先(1/7),具有优良可逆循环容量和循环特性的TiO2(B)@C复合纳米线锂电池阳极材料材料,福建省科学技术协会、福建省科技厅、福建省教育厅,第十一届福建省优秀科技论文二等奖,省部二等奖,获奖时间:2014.8.1
3.杨尊先(1/6),基于多气体传输通道铝掺杂ZnO纳米材料的气敏传感器,福建省科学技术协会、福建省科学技术厅、福建省教育厅、福建省公务员局、福建省人力资源开发办公室,第十届福建省优秀科技论文二等奖,省部二等奖,获奖时间:2012.9.1
4.杨尊先(1/1),2018年度福州大学“福能奖教金”,福州大学,获奖时间:2018.9.10
5.杨尊先(1/1),2016年度福州大学“阳光奖教金”,福州大学,获奖时间:2016.9.10
6.杨尊先(2/4),碳纳米复合体系的电荷输运调控与电子器件应用研究,福建省教育厅,2018年福建省自然科学奖三等奖,省部二等奖,获奖时间:2019.9
7.杨尊先(9/10),超高分辨率液晶显示关键技术开发及产业化,福建省教育厅,2018年福建省科学技术进步奖一等奖,省部二等奖,获奖时间:2019.9
8. 杨尊先,福建省高层次人才(B类)称号,获取时间:2021.12.1
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