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北京化工大学无机化学专业研究生导师介绍:汪乐余
分类:导师信息 来源:中国半岛真人体育 2016-06-17 相关院校:北京化工大学
北京化工大学无机化学专业研究生导师汪乐余介绍如下:
| 姓名: 汪乐余 | 性 别: 男 | 院 系: 理学院 | |||||||||||||||||||||||||||||||
| 行政职务: | 专业技术职称: 教授 | 导师类别: 博士生导师 | |||||||||||||||||||||||||||||||
| 从事专业1: 无机化学 | 从事专业2: 分析化学 | 从事专业3: 应用化学 | |||||||||||||||||||||||||||||||
| 从事专业4: 化学 | |||||||||||||||||||||||||||||||||
| 最后学历: 硕士研究生 | 最后学位: 博士 | 任硕导年月: 2004.09 | |||||||||||||||||||||||||||||||
| 任博导年月: 2010.10 | 是否院士: 否 | 是否国务院学科评议组成员: 否 | |||||||||||||||||||||||||||||||
| 毕业院校: 清华大学 | 毕业专业: 0703 化学 | 毕业时间: 2007-06 | |||||||||||||||||||||||||||||||
| 办公电话: 010-64433197 | E-mail: lywang@mail.buct.edu.cn | 是否停招: 否 | |||||||||||||||||||||||||||||||
| ◇ 个人简历: | |||||||||||||||||||||||||||||||||
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汪乐余,博士,教授,博导。2007年6月毕业于清华大学,获得化学博士学位。同年到美国加州大学洛杉矶分校从事博士后研究,2009年10月到北京化工大学理学院、化工资源有效利用国家重点实验室工作,受聘教授、博导。先后主持5项国家自然科学基金面上项目的研究工作,参加过973、863等国家重大课题的研究工作。2010年获教育部新世纪优秀人才项目资助。
主要从事基于新型无机纳米材料的可控合成与应用研究。一、通过无机纳米荧光探针的设计与构建,显著提高荧光分析方法的灵敏度和选择性,并应用于环境分析、指纹成像、生物医学检测,为癌症早期灵敏、快速诊断以及环境残留有害物质的快速、灵敏、高选择性分析服务。二、发展具有高灵敏上转换荧光或近红外荧光示踪能力的肿瘤靶向纳米药物,实现抗癌药物的靶向缓释与药物疗效的荧光成像示踪评价。为分析化学学科发展了高灵敏、高选择性荧光分析方法和实时原位成像分析技术。三、发展具有光电催化功能的纳米材料,用于有机反应的光电催化研究及能源(太阳能)转化利用研究。具体如下:(1)低背景、高亮度、高灵敏、高选择性荧光传感与成像;(2)多功能复合纳米探针的构筑、活体成像及肿瘤靶向纳米药物研究;(3)纳米催化剂及其光、电催化应用研究。近年来在包括Angew. Chem. Int. Ed., Sci. Rep., Anal. Chem., NanoLett., Adv. Mater., Chem.Mater., Chem. Comm., Chem. Eur. J., Chem.-Asian J., ACSAppl. Mater. Interfaces., J. Mater. Chem., J. Phy. Chem. C, Nano Res., Small 等期刊上共发表SCI收录论文90余篇,论文他引3100多次,多篇论文单篇他引超过100次,单篇他引最高达500余次。申请发明专利30项,授权18项。自2012年以来,课题组有7名研究生获国家奖学金。
课题组现有博士生6人(含外国留学生1名),硕士生15人。招收无机化学、应用化学、分析化学、化学工程与技术等方向研究生和博士生。欢迎化学、高分子材料、生物、医学等学科的学生保送或报考本课题组。
目前主要研究方向如下:
1. 癌症靶向纳米药物研究;癌症光热治疗研究;癌症光动力学治疗研究;
2. 磁共振成像造影剂与核磁成像;
3. 纳米催化剂的制备与光催化性能研究;
4. 电催化(HER,ORR)与电化学传感
5. 荧光纳米传感技术;分子印迹纳米传感;荧光免疫分析;
6. 等离子共振光热成像、指纹成像与爆炸物传感
7. 纳米荧光标记与荧光成像研究(细胞与动物成像);
8. 精油有效成分分析方法研究
代表性论文如下:
J. B. Cui, Y. J. Li, L. Liu, L. Chen, J. Xu, J. W. Ma, G. Fang,E. B. Zhu, H. Wu, L. X. Zhao, L. Y. Wang*,Y. Huang*, Near Infrared PlasmonicEnhanced Solar Energy Harvest for Highly Efficient Photocatalytic Reactions. NanoLett. 2015, DOI:10.1021/acs.nanolett.5b00950.
S. Huang; J. Liu; Q. He; H. L. Chen; J. B. Cui; S. Y. Xu; Y. L.Zhao; C. Y. Chen*; L. Y. Wang*,Smart Cu1.75S nanocapsules with high and stable photothermalefficiency for NIR photo-triggered drug release. NanoRes. 2015, DOI10.1007/s12274-015-0905-9.
S. Y. Xu;J. B. Cui; L. Y. Wang*, Recentdevelopments of low-toxicity NIR II quantum dots for sensing and bioimaging. TrAC-Trends Anal. Chem.
J. B. Cui;R. Jiang; S. Y. Xu; G. F. Hu; L. Y. Wang*, Cu7S4 Nanosuperlattices with Greatly Enhanced Photothermal Efficiency. Small 2015, 11, 4183-4190.
X. L. Bai;S. G. Wang; S. Y. Xu; L. Y. Wang*,Luminescent nanocarriers for simultaneous drug/gene delivery and imaging tracking.TrAC-TrendsAnal. Chem. 2015, 73, 54-63.
S. Huang; Q. He; Su Ying Xu; L. Y. Wang*, Polyaniline-Based Photothermal Paper Sensor for Sensitive and Selective Detection of 2,4,6-Trinitrotoluene (TNT). Anal. Chem. 2015, 87, 5451 – 5456.
M. Bai; Shui Na Huang; Su Ying Xu; L. Y. Wang*, Fluorescent Nanosensors via Photoinduced Polymerization ofHydrophobic Inorganic Quantum Dots for the Sensitive and Selective Detection of Nitroaromatics. Anal. Chem. 2015, 87(4), 2383-2388.
S. Y. Xu; S. Huang; Q. He; L. Y. Wang*, Upconversion nanophosphores for bioimaging. TrAC-TrendsAnal. Chem. 2015, 66, 72-79.
Y. X. Ma; S. Y. Xu; S. G. Wang; L. Y. Wang*, Luminescent molecularly imprinted polymer nanocomposites forsensitive detection. TrAC-Trends Anal. Chem. 2015, 67, 209-216.
Y. X. Ma; S. G. Wang; L. Y. Wang*, Nanomaterials for luminescence detection of nitroaromatic explosives. TrAC-Trends Anal. Chem. 2015, 65, 13-21.
S. Huang; S. Peng; Y. B. Li; J. B. Cui; H. L. Chen; L. Y. Wang*,NIR-II Fluorescence Image-Guided and pH-Responsive Nanocapsulesfor Cocktail Drug Delivery. Nano Res. 2015, 8(6): 1932–1943.
M. Bai; X. L. Bai; L. Y. Wang*, Real-Time Fluorescence Tracking of Gene Delivery via Multifunctional Nanocomposites. Anal. Chem. 2014, 86 (22), 11196-11202.
S. G. Wang; L. Y. Wang*, Lanthanide-doped nanomaterials for luminescence detection and imaging. TrAC-Trends Anal. Chem. 2014,62, 123-134.
Y. X. Ma; S. Huang; M. L. Deng; L. Y. Wang*, White Upconversion Luminescence Nanocrystals for the Simultaneous and Selective Detection of 2,4,6-Trinitrotoluene and 2,4,6-Trinitrophenol. ACS Appl.Mater. Interfaces 2014, 6 (10), 7790-7796.
M. L. Deng; L. Y. Wang*, Unexpected luminescence enhancement of upconverting nanocrystalsby cation exchange with well retained small particle size. Nano Res. 2014, 7 (5), 782-793.
S. Huang; M. Bai; L. Y. Wang*,General and Facile Surface Functionalization of Hydrophobic Nanocrystals with Poly(amino acid) for Cell Luminescence Imaging. Sci Rep 2013, 3, 2023 - 2027.
N. N. Tu; L. Y. Wang*, Surface plasmon resonance enhanced upconversion luminescence inaqueous media for TNT selective detection.Chem. Commun. 2013, 49 (56), 6319-6321.
H. Li; L. Y. Wang*, HighlySelective Detection of Polycyclic Aromatic Hydrocarbons Using Multifunctional Magnetic-Luminescent Molecularly Imprinted Polymers. ACS Appl.Mater. Interfaces 2013, 5(21), 10502-10509.
H. Li; H. J. Wang; L. Y. Wang*, Synthesis and sensing application of highly luminescent andwater stable polyaspartate functionalized LaF3 nanocrystals. J. Mater.Chem. C 2013, 1 (6), 1105-1110.
M. Y. An; J. B. Cui; Q.He; L. Y. Wang*, Down-/up-conversion luminescence nanocomposites for dual-modalcell imaging. J. Mat. Chem. B 2013, 1 (9), 1333-1339.
Y. Y. Zhao; Y. X. Ma; H. Li; L. Y. Wang*, Composite QDs@MIP Nanospheres for Specific Recognition and DirectFluorescent Quantification of Pesticides in Aqueous Media. Anal.Chem. 2012,84 (1), 386-395.
Y. X. Ma; H. Li; L. Y. Wang*, Magnetic -luminescent bifunctional nanosensors. J. Mater.Chem. 2012, 22 (36), 18761-18767.
Y. X. Ma; H. Li; S. Peng; L. Y. Wang*, Highly Selective and Sensitive Fluorescent Paper Sensor for Nitroaromatic Explosive Detection. Anal. Chem. 2012, 84 (19), 8415-8421.
M. L. Deng; N. Tu; F. Bai; L. Y. Wang*, Surface Functionalization of Hydrophobic Nanocrystals with One Particle per Micelle for Bioapplications. Chem. Mat. 2012, 24 (13), 2592-2597.
M. L. Deng; Y. X. Ma; S. Huang; G. F. Hu; L. Y. Wang*, Monodisperse upconversion NaYF4 nanocrystals: Syntheses and bioapplications. Nano Res. 2011, 4 (7), 685-694.
L. Y. Wang*; Y. Zhang; Y. Y. Zhu, One-Pot Synthesis and Strong Near-InfraredUpconversion Luminescence of Poly(acrylic acid)-Functionalized YF3:Yb3+/Er3+ Nanocrystals. Nano Res. 2010, 3 (5), 317-325.
L. Y. Wang; P. Li; J.Zhuang; F. Bai; J. Feng; X. Y. Yan; Y. D. Li*, Carboxylic acid enriched nanospheres of semiconductor nanorods for cell imaging. Angew.Chem.-Int. Edit. 2008, 47 (6), 1054-1057.
L. Y. Wang; J. W. Bai; Y.J. Li; Y. Huang*, Multifunctional nanoparticles displaying magnetization and near-IR absorption. Angew.Chem.-Int. Edit. 2008, 47 (13), 2439-2442.
L. Y. Wang; Y. D. Li*,Luminescent nanocrystals for nonenzymatic glucose concentration determination. Chem.-Eur. J. 2007, 13 (15), 4203-4207.
L. Y. Wang; Y. D. Li*,Controlled synthesis and luminescence of lanthanide doped NaYF4nanocrystals. Chem. Mat. 2007, 19 (4), 727-734.
L. Y. Wang; Y. D. Li*,Luminescent coordination compound nanospheres for water determination. Small 2007, 3 (7), 1218-1221.
L. Y. Wang; P. Li; Y. D.Li*, Down- and up-conversion luminescent nanorods. Adv. Mater. 2007,19 (20), 3304-3307.
L. Y. Wang; Y. D. Li*,Green upconversion nanocrystals for DNA detection. Chem. Commun. 2006, (24), 2557-2559.
L. Y. Wang; Y. D. Li*,Na(Y1.5Na0.5)F6 single-crystal nanorods asmulticolor luminescent materials. Nano Lett. 2006, 6 (8), 1645-1649.
L. Y. Wang; J. Bao; L.Wang; F. Zhang; Y. D. Li*, One-pot synthesis and bioapplication ofamine-functionalized magnetite nanoparticles and hollow nanospheres. Chem.-Eur. J. 2006, 12 (24), 6341-6347.
L. Y. Wang; R. X. Yan; Z.Y. Huo; L. Wang; J. H. Zeng; J. Bao; X. Wang; Q. Peng; Y. D. Li*, Fluorescence resonant energy transfer biosensor based on upconversion-luminescent nanoparticles. Angew.Chem.-Int. Edit. 2005,44 (37), 6054-6057.
2015, 69, Accepted. |
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| ◇ 本人从事的主要研究方向: | |||||||||||||||||||||||||||||||||
| 纳米生物技术,纳米催化化学,纳米药物,光电催化,能源化学,分子印迹 ,荧光纳米传感,荧光成像, | |||||||||||||||||||||||||||||||||
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| ◇ : 成果获奖情况 | |||||||||||||||||||||||||||||||||
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| ◇ :主持重大科研项目情况 | |||||||||||||||||||||||||||||||||
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| ◇ :目前承担的主要项目 | |||||||||||||||||||||||||||||||||
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