杨立滨,博士(博士后),教授(三级),应用化学系,毕业于吉林大学。
工作内容:教学科研
人才称号:黑龙江省杰出青年科学基金获得者,黑龙江省“头雁”团队骨干成员,黑龙江省新世纪优秀人才支持计划入选者,黑龙江省青年学术骨干支持计划入选者,黑龙江省佳木斯市第六批市级有突出贡献专业技术人才
通讯地址:齐齐哈尔市文化大街42号化学与化学工程学院日新大厦706室
电子邮件:ylb76@163.com
研究领域:功能材料光谱学及生物药物传感
招生学科:物理化学/分析化学
教育及科研经历:
1996-2000年黑龙江大学化学化工与材料学院本科
2004-2007年黑龙江大学化学化工与材料学院硕士
2007-2010年吉林大学化学学院博士
2014-2017年吉林大学生命科学学院博士后
2000-2022年 佳木斯大学药学院 教授 博士生导师/硕士生导师
2022年至今 威尼斯欢乐娱人城v3676化学与化学工程学院教授博士生导师/硕士生导师
荣誉和奖励
1.获得市“青年五四奖章”,校“先进个人”、“五争当活动标兵”、“十佳教学优秀奖”、“科技工作先进个人”等荣誉称号。
2.杨立滨(1/5).具有光催化降解性能的半导体SERS活性基底,黑龙江省科学技术三等奖,2017年
3.杨立滨(7/10). 拉曼光谱增强特性和分析应用研究,中国分析测试协会科学技术奖一等奖,2019年
4. 杨立滨(6/9).过渡金属配合物修饰的Keggin型杂多酸材料的合成及性质研究, 佳木斯市科技进步一等奖,2008年
科研论文
1.X.Jiang, K.W.Li, Y.M.Tang, X.W.Wang, W.Kan,L.B.Yang*, B.Zhao, A double defects-dominated flexible TiO2matrix for in-situ SERS sensing of antibiotic residues in aquatic ecosystem (fish & fishpond water) and their on-site degradation in flowing water,Sci. Total Environ. 2024, 921, 171154.
2.H.Z.Zhang, Y.M.Tang, W.E.Wang, D.X.Yu,L.B.Yang*, X.Jiang, W.Song, B,Zhao,A new semiconductor heterojunction SERS substrate for ultra-sensitive detection of antibiotic residues in egg,Food Chemistry 2024, 431, 137163.
3.X.Jiang, S.He, Y.M.Tang, X.W.Wang, H.Z.Zhang,L.B.Yang*, W.Kan, B.Zhao, High energy facet-dominated TiO2-Xfacet heterojunction with excellent carrier utilization for ultrasensitive SERS sensingandefficient degradation of antibiotic residues,Sens. Actuators B Chem. 2024, 403, 135241.
4.X.Jiang, H.Jiang, Y.M.Tang, H.Z.Zhang,L.B.Yang*, X.W.Wang, B.Zhao,g-C3N4/TiO2-Xheterojunction with high-efficiency carrier separation and multiplecharge transfer paths for ultrasensitive SERS sensing,Chin. Chem. Lett.2024, doi:https://doi.org/10.1016/j.cclet.2023.109415.
5.K.W.Li, H.Jiang, L.Y.Wang, R.Wang, X.W.Zhang,L.BYang*, X.Jiang, W.Song, B.Zhao, A flexible semiconductor SERS substrate by in situ growth of tightly aligned TiO2for in situ detection of antibiotic residues,Microchim. Acta 2024, 191,113.
6.J.Li, Y.M.Tang, X.W.Wang, W.Kan,L.B.Yang*, X.Jiang, Y.Ozaki, X.X.Han, B.Zhao,Sr-DopedTiO2with Positive Double Defects for Highly Sensitive and Stable Surface-Enhanced Raman Substrate,J. Phys. Chem. C 2024, 128, 296-303.
7. D.X. Yu, L. Xu, H.Z. Zhang, J. Li, W. Wang,L.B.Yang*, X. Jiang, B. Zhao,A new semiconductor-based SERS substrate with enhanced charge collection andimproved carrier separation: CuO/TiO2p-n heterojunction,Chin. Chem. Lett. 2023,34, 107771.
8.X.Jiang, L.Xu, W.Ji, W.Wang, J.Du,L.B.Yang*, W.Song, X.X.Han, B.Zhao,One plus one greater than Two: Ultrasensitive Surface-Enhanced Raman scattering by TiO2/ZnO heterojunctions based on Electron-Hole separation,Appl. Surf. Sci.2022, 584, 152609.
9.J.Li, H.Z.Zhang, D.X.Yu, W.Wang, W.Song,L.B.Yang*,X.Jiang, B.Zhao,Mixed valence Ce-doped TiO2with multiple energy levels and efficient charge transfer for boosted SERS performance,Spectrochimi. Acta A2022,281,121643.
10.X.Jiang, J.Zhang,L.Xu, W.Wang, J.Du, M.H.Qu, X.X.Han,L.B.Yang*, B.Zhao, Ultrasensitive SERS detection of antitumor drug methotrexate based on modified Ag substrate,Spectrochimi. Acta A2020,240, 118589.
11.X.Jiang, D.Yin, M.Yang, J.Du, W.Wang, L.Zhang,L.BYang*, X.X.Han, B.Zhao,Revealing interfacial charge transfer in TiO2/reduced graphene oxide nanocomposite by surface-enhanced Raman scattering (SERS): Simultaneous a superior SERS-active substrate,Appl. Surf. Sci.2019, 487, 938-944.
12.X.Jiang,Q.Q.Sang,M.Yang,J.Du,W.Wang,L.B.Yang*, X.X.Han, B.Zhao,Metal-free SERS substrate based on rGO-TiO2-Fe3O4nanohybrid: contribution from interfacial charge transfer and magnetic controllability,Phys. Chem. Chem. Phys.2019, 21, 12850-12858.
13.W.Wang, Q.Q.Sang, M.Yang, J.Dua,L.B.Yang*, X.Jiang, X.X.Han, B.Zhao, Detection of several quinolone antibiotic residues in water based on Ag-TiO2SERS strategy,Sci. Total Environ.2020, 702, 134956.
14.L.B.Yang*,Q.Q.Sang,J.Du,M.Yang,X.L.Li,Y.Shen,X.X.Han, X.Jiang,B.Zhao,A Ag synchronously deposited and doped TiO2hybrid as an ultrasensitive SERS substrate: a multifunctional platform for SERS detection and photocatalytic degradation,Phys. Chem. Chem. Phys.2018, 20, 15149-15157.
15.X.Jiang, Y.C.Chen, J.Du, M.Yang, Y.Shen, X.L.Li, X.X.Han,L.B.Yang*, B.Zhao,SERS investigation and high sensitive detection of carbenicillin disodium drug on the Ag substrate,Spectrochimi. Acta A2018,204, 241-247.
16.X.Jiang, Y.L.Chen, J.Du, X.L.Li, Y.Shen, M.Yang, X.X.Han,L.B.Yang*, B.Zhao, Comparative study of semiconductor TiO2and noble metal Ag substrates: The differences between chemical enhancement and electromagnetic enhancement in SERS,J. Raman Spectrosc.2018, 49, 1257-1264.
17.Y.G.Lü,Q.Shi, Q.Guo, S.S.Song, Y.S.Qin, B.Wang,L.B.Yang*,Studies on luminescent properties of TCNE-phenanthroline complex,Spectroscopy and Spectral Analysis 2018, 38, 634-637.
18.Y.C.Chen, X.X.Li, M.Yang,L.B.Yang*, X.X.Han, X.Jiang, B.Zhao, High sensitive detection of penicillin G residues in milk by surface enhanced Raman scattering,Talanta 2017, 167, 236-241.
19.X.Jiang, K.Song, X.L.Li, M.Yang, X.X.Han,L.B.Yang*, B.Zhao,Double metal co-doping of TiO2nanoparticles for improvement of their SERS activity and ultrasensitive detection of enrofloxacin: Regulation strategy of energy levels,ChemistrySelect2017,2, 3099-3105.
20.X.Jiang,X.D.Sun,D.Yin,X.L.Li,M.Yang,X.X.Han,L.B.Yang*,B.Zhao,Recyclable Au-TiO2nanocomposite SERS-active substrates contributed by synergistic charge-transfer effect,Phys. Chem. Chem. Phys.2017, 19, 11212-11219.
21.L.B.Yang*, D.Yin,Y.Shen,M.Yang,X.L.Li,X.X.Han, X.Jiang, B.Zhao,Mesoporous semiconducting TiO2with rich active sites as a remarkable substrate for surface-enhanced Raman scattering,Phys. Chem. Chem. Phys.2017, 19, 18731-18738.
22.L.B.Yang*, D.Yin,Y.Shen,M.Yang,X.L.Li,X.X.Han, X.Jiang,B.Zhao,Highly-dispersed TiO2nanoparticles with abundant active sites induced by surfactants as a prominent substrate for SERS: charge transfer contribution,Phys. Chem. Chem. Phys.2017, 19, 22302-22308.
23.L.B.Yang*,Y.L.Chen, Y.Shen, M.Yang, X.L.Li, X.X.Han, X.Jiang, B.Zhao,SERS strategy based on the modified Au nanoparticles for highly sensitive detection of bisphenol A residues in milk,Talanta 2018, 179, 37-42.
24.L.B.Yang, M.D.Gong, X.Jiang, Y.F.Chen, X.X.Han, K.Song, X.D.Sun, Y.J.Zhang, B.Zhao,SERS investigation and detection of levofloxacin drug molecules on semiconductor TiO2: Charge transfer contribution,Colloids and Surfaces A: Physicochem. Eng. Aspects 2016, 508, 142-149.
25.X.Jiang, X.Y.Qin, D.Yin,M.D.Gong,L.B.Yang*,B.Zhao,W.D.Ruan,Rapid monitoring of benzylpenicillin sodium using Raman and surface enhanced Raman spectroscopy,Spectrochimi. Acta A 2015, 140, 474-478.
26.L.B.Yang*,M.D.Gong,X.Jiang, D.Yin, X.Y.Qin, B.Zhao,W.D.Ruan,Investigation on SERS of different phase structure TiO2nanoparticles,J. Raman Spectrosc.2015,46, 287-292.
27.L.B.Yang, X.Y.Qin, X.Jiang, M.D.Gong, D.Yin, Y.J.Zhang,B.Zhao,SERS investigation of ciprofloxacin drug molecules on TiO2nanoparticles,Phys. Chem. Chem. Phys.2015, 17, 17809-17815.
28.M.D.Gong, X.Jiang,J.Du, X.L.Li, X.X.Han,L.B.Yang*,B.Zhao,Anatase TiO2nanoparticles with controllable crystallinity as a substrate for SERS: improved charge-transfer contribution,RSC Adv. 2015, 5, 80269-80275.
29.L.B.Yang*,X.Y.Qin, M.D.Gong, X.Jiang, M.Yang, X.L.Li,Z.Li,Improving surface-enhanced Raman scattering properties of TiO2nanoparticles by metal Co doping,Spectrochimi. Acta A 2014, 123, 224-229.
30.X.Jiang, X.L.Li, X.F.Jia, G.Z.Li, X.Wang, G.Y.Wang, Z.S.Li,L.B.Yang*,B.Zhao, Surface-Enhanced Raman Scattering from Synergistic Contribution of Metal and Semiconductor in TiO2/MBA/Ag(Au) and Ag(Au)/MBA/TiO2Assemblies,J. Phys. Chem. C 2012, 116, 14650-14655.
31.Y.G.Lü, Y.Li, Y.H.Zhao,L.B.Yang*, X.Jiang, Y.Wang, X.H.Wu,Research and application of fluorescence system on norfloxacin-terbium-phen-SDBS,J. Rare Earth. 2012, 30, 842-846.
32.L.B.Yang*,X.Jiang, M.Yang, Improvement of surface-enhanced Raman scattering performance for broad band gap semiconductor nanomaterial (TiO2): Strategy of metal doping,Appl. Phys. Lett. 2011, 99, 111114.
33.L.B.Yang, Y.Zhang, W.D.Ruan, B.Zhao,W.Q.Xu,J.R. Lombardi, Improved surface-enhanced Raman scattering properties of TiO2nanoparticles by Zn dopant,J. Raman Spectrosc.2010, 41, 721-726.
34.L.B.Yang, W.D.Ruan, X.Jiang, B.Zhao, W.Q.Xu, J.R. Lombardi, Contribution of ZnO to Charge-Transfer Induced Surface-Enhanced Raman Scattering in Au/ZnO/PATP,J. Phys. Chem. C2009,113,117-120.
35.L.B.Yang, X.Jiang, W.D.Ruan, J.X.Yang, B.Zhao, W.Q.Xu, J.R. Lombardi, Charge-Transfer-Induced Surface-Enhanced Raman Scattering on Ag-TiO2Nanocomposites,J. Phys. Chem. C2009,113,16226-16231.
36.L.B.Yang, X.Jiang, W.D.Ruan, B.Zhao,W.Q.Xu,J.R. Lombardi, Adsorption study of 4-MBA on TiO2nanoparticles by surface-enhanced Raman spectroscopy,J. Raman Spectrosc.2009, 40, 2004-2008.
37.L.B.Yang, X.Jiang, W.D.Ruan, B.Zhao, W.Q.Xu,J.R. Lombardi,Observation of Enhanced Raman Scattering for Molecules Adsorbed on TiO2nanoparticles: Charge-TransferContribution,J. Phys. Chem. C2008,112,20095-20098.
科研项目
1.金属和半导体协同贡献的表面增强拉曼散射研究,项目负责人,国家自然科学基金面上项目,2015.01-2018.12.
2.宽带隙半导体纳米材料的增强光学性能改进:金属掺杂策略,项目负责人,国家自然科学基金青年科学基金项目,2011.01-2013.12.
3.基于药物检测的表面增强拉曼散射研究,项目负责人,中国博士后科学基金面上一等资助,2015.05-2017.03.
4.新型半导体基SERS芯片及在药物残留检测中的应用,项目负责人,黑龙江省杰出青年科学基金,2019.07-2022.12.
5.金属和半导体协同贡献的复合SERS活性基底及其增强机制研究,项目负责人,黑龙江省自然科学基金面上项目,2014.01-2016.12.
6.基于金属掺杂策略改进宽禁带半导体纳米材料的SERS性能,项目负责人,黑龙江省自然科学基金面上项目,2011.01-2013.12.
7.基于能级调控策略改进半导体纳米材料的表面增强光学性能,项目负责人,黑龙江省新世纪优秀人才培养计划,2013.06-2017.06.
8.几种基于半导体的SERS基底及其增强机制研究,项目负责人,黑龙江省普通高等学校青年学术骨干支持计划,2009.01-2011.12.
专利
1.杨立滨,江欣,王伟娥,吴莉莉,杜娟,杨铭,徐琳.一种TiO2/ZnO半导体异质结SERS活性基底的制备方法,发明专利,ZL201910196490.X,授权日期:2021.11.
2.杨立滨,江欣,沈宇,李秀玲,杨铭,尹迪.一种介孔TiO2表面增强拉曼散射活性基底的制备和应用方法,发明专利,ZL201710346578.6,授权日期:2019.12.
3.杨立滨,江欣,杨铭,李秀玲,沈宇,赵志宇,佟德成,陈永亮.一种牛奶中双酚A残留的表面增强拉曼检测方法,发明专利,ZL201710221422.5,授权日期:2019.06.
4.江欣,杨立滨,李秀玲,杨文杰,田丽华,佟德成,赵志宇,宋昆,杨铭.用表面增强拉曼光谱法检测恩诺沙星的方法,发明专利,ZL201611039208.X,授权日期:2019.04.
5.杨立滨,孙维彤,杨铭,周海瑞,佟德成,赵志宇,尹迪,桑勤勤.一种金银花保健饮料及其制备方法,发明专利,ZL201510130947.9,授权日期:2016.08.
6.杨立滨,江欣,杨铭,王运良,田丽华,滕杨,高洪福,佟德成.多功能超声波清洗装置,实用新型专利,ZL201120558862.8,授权日期:2012.08.
7.杨立滨,江欣,杨铭,李秀玲,安洪欣,周海瑞,王旭,慎爱民.小型搅拌式冰浴装置,实用新型专利, ZL201120558861.3,授权日期:2012.08.
专著或教材
1.杨立滨,江欣.《物理化学实验》,北京大学出版社黑龙江大学出版社,2014.05.
2.杨立滨.《基于半导体涉及电荷转移的SERS及其增强机制研究》,黑龙江大学出版社,2014.07.
3.杨立滨,江欣.《应用化学》,北京大学出版社黑龙江大学出版社,2015.07.