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东南大学化学化工学院导师教师师资介绍简介-娄永兵

本站小编 Free考研考试/2021-02-16

娄永兵
教授 化学化工学院
联系电话: 办公时间:Mon-Sat, 8:30-18:00
传 真: 主页网址:
办公地点:九龙湖校区化学楼429B 电子邮箱:lou@seu.edu.cn
通讯地址:江苏省南京市江宁区东南大学化学化工学院,211189












研究方向


1. 新型光活性纳米材料的合成及其在纳米探针技术和光催化方面的应用
多年来,具有局域表面等离子体共振(Localized surface plasmonic resonance, LSPR)效应的金属纳米材料一直是纳米领域的研究热门。半导体纳米晶体(量子点)能级呈现为带状,带宽与粒子大小的有关,从而其吸收光谱及其发射光谱也是粒子大小的函数,粒子变小,吸收光谱和荧光光谱则向短波长方向移动,这叫做量子限制效应。重度载流子掺杂的半导体量子点实现类似于金属纳米粒子特征的LSPR 吸收峰,而纳米粒子的等离子体共振吸收一般仅限于贵金属纳米粒子(比如金、银和铜),最新的研究使得这类材料的范畴大大地拓宽到半导体纳米结构,尤其是硫族化物(chalcogenides)和氧化物。量子点的制备方法很多,用于无机离子、无机小分子以及生物分子的荧光/等离子体探针的量子点通常采用胶体化学法,按所有的原料不同,可以分成金属有机溶剂热分解,巯基分子作稳定剂的水相合成,溶剂/水热法合成等等方法。对用于生物检测的纳米晶体的要求是可溶于水或缓冲溶液,粒径分布均匀,量子产率高,并且稳定。因此制备发光效率高、发光颜色可调性好、对光热稳定性好的量子点,尤其是制备对于生物监测十分重要的受激发能在红外区发光的量子点已成为近年来的研究热点。本课题组主要研究不同的方法来制备具有高催化性能,高生物相容性的具有LSPR特性的半导体金属硫化物/氧化物纳米材料,并通过纳米材料与生物分子的偶联等技术来制备新型量子点荧光/等离子体探针,以及同其它光活性纳米材料复合来获得高性能的光催化材料,用来光解水产氢或者光催化分解氨硼烷制氢。



(1) A Stable Plasmonic Cu@Cu2O/ZnO Heterojunction for Enhanced Photocatalytic H2 Generation【ChemSusChem 2018, 11, 1505.】




(2) Efficient Hydrogen Evolution from Hydrolysis of Ammonia Borane using Bilateral-like WO3-x Nanorods Coupled with Ni2P Nanoparticles【Chem. Commun. 2018, 54, 6188. 】


(3) Highly Efficient Colloidal MnxCd1?xS Solid Solution Nanorods for Photocatalytic Hydrogen Generation【 J. Mater. Chem. A 2018, 6, 23683. 】




(4) Top-down fabrication of colloidal plasmonic MoO3-x nanocrystals via solution chemistry hydrogenation【 Chem. Comun. 2020, 56, 4816. 】




(5) Partially Cu Ion Exchange Induced Triangle Hexagonal Mn0.45Cu0.05Cd0.5S Nanocrystal for Enhanced Photocatalytic Hydrogen Evolution【 Chem. Comun. 2020, 10.1039/d0cc03358h 】


2. 新型钙钛矿纳米晶的合成与应用
使用拟卤素硫氰酸根来替换普通钙钛矿纳米晶中的卤素离子,可以获得更加稳定的、光电性质可调的无机/有机杂化钙钛矿材料。前人工作表明,SCN-与I-的离子半径接近,SCN-掺杂的CH3NH3PbI3与纯CH3NH3PbI3的光学性质接近,因而可以预测SCN-掺杂的CsPbBr3应该会导致能隙变窄。有趣的是,全无机CsPbBr3钙钛矿纳米晶在成功掺杂了SCN-后结晶性增强,光致化学发光产生了异常的蓝移。综合理论计算和实验结果表明,棒状的SCN?离子会引起晶格畸变和扩张,从而影响到钙钛矿的电子结构,从而导致能隙增宽。同时还积极制备其它各种新型纯无机钙钛矿纳米晶。
(1)Rod-shaped thiocyanate-induced abnormal band gap broadening in SCN- doped CsPbBr3 perovskite nanocrystals【Nano Res. 2018, 11, 2715.】


(2) Formation of Highly Luminescent Cesium Bismuth Halide Perovskite Quantum Dots Tuned by Anion Exchange【Chem. Commun. 2018, 54, 3779.】

(3) All inorganic Cs2CuX4 (X= Cl, Br, Br/I) halide perovskite quantum dots with blue-green luminescence【Chem. Commun. 2018, 54, 11638.】


(4) A Stable Lead-Free (CH3NH3)3Bi2I9 Perovskite for Photocatalytic Hydrogen Generation【ACS Sustainable Chem. Eng., 2019, 7, 15080.】


(5) Lead-Free Silver-Antimony Halide Double Perovskite Quantum Dots with Superior Blue Photoluminescence【Chem. Commun., 2019, 55, 14741.】


3. 纳米复合材料在锂离子电池和新型储能设备中的应用
负极材料是锂离子电池的关键材料,其性能的好坏不仅直接影响电池的性能,而且对降低电池成本、实现产业化具有十分重要的现实意义。石墨烯(Graphene)是一种由碳原子构成的单层片状结构的新材料,是一种由碳原子以sp2杂化轨道组成六角型呈蜂巢晶格的平面薄膜,只有一个碳原子厚度的二维材料,石墨烯目前是世上最薄却也是最坚硬的纳米材料,它几乎是完全透明的,只吸收2.3%的光,具有极高的导热系数(高于碳纳米管和金刚石),电子迁移的速度极快,而电阻率比铜或银更低,为目前世上电阻率最小的材料。碳纳米管,又名巴基管,是一种具有特殊结构(径向尺寸为纳米量级,轴向尺寸为微米量级,管子两端基本上都封口)的一维量子材料。碳纳米管具有良好的力学性能,良好的导电性能和传热性能硅具有非常高的理论比容量和较低的嵌/脱锂电位,被认为是最有潜力实现下一代高能量密度锂离子电池的新型负极材料之一,但由于硅在嵌锂/脱锂过程中会产生约300%的体积膨胀/收缩,巨大的体积变化会造成硅电极的粉化剥落,使硅颗粒之间以及硅与集流体之间失去电接触,电极的比容量急剧下降甚至完全失效。本课题组主要探索纳米硅与碳纳米管/石墨烯的复合材料,在锂离子电池负极材料及超级电容器储能设备中的应用。
(1) Ultra-small Co3O4 nanoparticles-reduced graphene oxide nanocomposite as superior anodes for lithium-ion batteries【Phys. Chem. Chem. Phys. 2015, 17 (14), 8885-93】





(2) Nanocomposite of ultrasmall Co3O4 nanoparticles deposited on ultrathin MoS2 surfaces for excellent performance anode materials in lithium ion batteries【Chem. Eng. J. 2017, 313, 1269-1277】


(3) 3D Metal‐Rich Cu7.2S4 With Carbon Layer Supporting MoS2 Nanosheets For Significantly Enhanced Lithium Storage Performance【ChemElectroChem 2019, 6, 1458-1465】






荣誉奖励



东南大学, 南京, 2007-
教授,博士生导师(欢迎报考博士),硕士招生方向:化学专业分析化学、无机化学),化学工程(专业学位)
Case Western Reserve University, Cleveland, Ohio, 2001-2007
Ph.D. in Physical Chemistry, Advisor: Prof. Clemens Burda
SUNY at Binghamton, Binghamton, New York, 1999-2001
Graduate Student in Anal. Chem., Advisor: Prof. Chuan-Jian Zhong
?
南京大学, 南京, 1996-1999
M.S. in Polymer Chemistry, Advisor: Prof. Qingchao Gu

南开大学, 天津, 1992-1996
B.S. in Polymer Chemistry, Advisor: Prof. Jiaxian Huang

课题组活动:201911登紫金山



课题组活动:201811栖霞山秋游


课题组活动:201612方山秋游


课题组活动:201412栖霞山秋游


在读学生
2020级:博士生:郭艳梅;硕士生:王雪敏、田浩泽
2019级:博士生:张珂;硕士生:黄巧、姜岚轩、李宝乐、孟雅琴
2018级:博士生:谭鲁;硕士生:宋怡彬、杨慧贤、朱鑫健、潘迪松、王晴晴
2017级:博士生:岐少鹏
2015级:博士生:刘国宁
本科SRTP:杨劲帆、李丙南、宋若为

毕业学生
硕士:吕可馨(2020)、齐艳青(2020)、刘帅(2020)、陈闪闪(2020)、李玲(2019)、杨盼(2019)、刘智敏(2019)、方梦莹(2018)、张亚可(2018)、何金鑫(2018)、刘甲文(2018)、牛艳丹(2017)、何丹(2017)、彭映莲(2016)、梁静(2015)、张静静(2014)、徐庆燕(2013)、朱林(2012)、刘艳(2012)、沈晓燕(2011)
本科毕设:张黎(2018)、王亚妹(2017)、赵思奇(2016)、晁涛(2016)、黄婕(2014)、马季(2013)、沈丽丽(2010)、康锐(2010)、吕文川(2009)、彭德箐(2008)
本科SRTP:李则宣(2018)、刘巴蒂(2017)、刘馨迪(2016)、顾柳瑜(2016)、胡宇航(2015)、沈颖(2015)、明晶(2015)、赵思奇(2014)、晁涛(2014)
专接本:吴建华(2007)、周刘(2008)、梁利(2008)






学术成果


课题经费:

* 教育部留学回国人员启动基金,主持,结题(2009.7-2011.12)
* 江苏省自然科学基金面上项目(BK**),参与,结题(2009.9-2012.12)
* 江苏省自然科学基金面上项目(BK**)“环境友好LSPR可调金属氧化物纳米晶的制备及其应用”, 主持,结题 (2014.7 - 2017.6)
* 国家自然科学基金面上项目(**)“具有表面等离子共振效应的水溶性半导体纳米晶的制备和传感应用研究”,主持,结题 (2015.1 - 2018.12)
* 国家自然科学基金重大仪器专项(自由申请项目) (**) “高内涵光电显微平台的研制”,合作项目,结题 (2015.1 - 2019.12)



ResearchID链接:https://publons.com/researcher/**/yongbing-lou/
部分发表论文


[64]. Shuai Liu, Ke Zhang, Lu Tan, Shaopeng Q, Guoning Liu, Jinxi Chen*, Yongbing Lou*, 'All-Inorganic Halide Perovskite CsPbBr3@CNTs Composite Enabling Superior Lithium Storage Performance with Pseudocapacitive Contribution', Electrochim. Acta, 2020, 10.1016/j.electacta.2020.137352.

[63]. Yanqing Qi, Shaopeng Qi, Lu Tan, Guoning Liu, Jinfan Yang, Binnan Liu, Yongbing Lou*, Jinxi Chen*, Yixin Zhao*, 'Partially Cu Ion Exchange Induced Triangle Hexagonal Mn0.45Cu0.05Cd0.5S Nanocrystal for Enhanced Photocatalytic Hydrogen Evolution', Chem. Commun., 2020, 56, 8127.

[62]. Guoning Liu, Charles Kolodziej, Rong Jin, Shaopeng Qi, Yongbing Lou*, Jinxi Chen, Dechen Jiang*, Yixin Zhao*, Clemens Burda*, 'MoS2-Stratified CdS-Cu2-xS Core-Shell Nanorods for Highly-Efficient Photocatalytic Hydrogen Production', ACS Nano, 2020, 14, 5468.

[61]. Shaopeng Qi, Guoning Liu, Lu Tan, Jinxi Chen, Yongbing Lou*, Yixin Zhao*, 'Top-down fabrication of colloidal plasmonic MoO3-x nanocrystals via solution chemistry hydrogenation', Chem. Commun., 2020, 56, 4816.

[60]. Kexin Lv, Shaopeng Qi, Guoning Liu, Yongbing Lou*, Jinxi Chen*, Yixin Zhao*, 'Lead-Free Silver-Antimony Halide Double Perovskite Quantum Dots with Superior Blue Photoluminescence', Chem. Commun., 2019, 55, 14741 .

[59]. Yanmei Guo, Guoning Liu, Zexuan Li, Yongbing Lou*, Jinxi Chen*, Yixin Zhao*, 'A Stable Lead-Free (CH3NH3)3Bi2I9 Perovskite for Photocatalytic Hydrogen Generation', ACS Sustainable Chem. Eng., 2019, 7, 15080.

[60]. Xingtao Wang, Taiyang Zhang, Yongbing Lou* , Yixin Zhao* ,'All-inorganic lead-free perovskites for optoelectronic applications', Mater. Chem. Front., 2019, 3, 365.

[59]. Zhimin Liu, Shaopeng Qi, Guoning Liu, Lin Cheng,* Jinxi Chen,* Yongbing Lou* , '3D Metal‐Rich Cu7.2S4 With Carbon Layer Supporting MoS2 Nanosheets For Significantly Enhanced Lithium Storage Performance', ChemElectroChem, 2019, 6, 1458.

[58]. Ling Li, Guoning Liu, Shaopeng Qi, Xindi Liu, Liuyu Gu, Yongbing Lou*, Jinxi Chen,* Yixin Zhao* , 'Highly Efficient Colloidal MnxCd1-xS Solid Solution Nanorods for Photocatalytic Hydrogen Generation', J. Mater. Chem. A, 2018, 6, 23683.

[57]. Pan Yang, Guoning Liu, Badi Liu, Xindi Liu, Yongbing Lou*, Jinxi Chen,* Yixin Zhao* , 'All inorganic Cs2CuX4 (X= Cl, Br, Br/I) halide perovskite quantum dots with blue-green luminescence', Chem. Commun., 2018, 54, 11638.

[56]. Yongbing Lou*, Jinxin He, Guoning Liu, Shaopeng Qi, Lin Cheng, Jinxi Chen,* Yixin Zhao* and Jun-Jie Zhu*, 'Efficient Hydrogen Evolution from Hydrolysis of Ammonia Borane using Bilateral-like WO3-x Nanorods Coupled with Ni2P Nanoparticles', Chem. Commun., 2018, 54, 6188.

[55]. Yongbing Lou*, Mengying Fang, Jinxi Chen,* and Yixin Zhao*, 'Formation of Highly Luminescent Cesium Bismuth Halide Perovskite Quantum Dots Tuned by Anion Exchange', Chem. Commun., 2018, 54, 3779.

[54]. Yongbing Lou*, Yake Zhang, Lin Cheng, Jinxi Chen,* and Yixin Zhao*, 'A Stable Plasmonic Cu@Cu2O/ZnO Heterojunction for Enhanced Photocatalytic H2 Generation', ChemSusChem, 2018, 11, 1505.

[53]. Dandan Yang, Mei Liu, Jing Xu, Chao Yang, Xiaoxiao Wang, Yongbing Lou*, Nongyue He*, Zhifei Wang*, 'Carbon nanosphere-based fluorescence aptasensor for targeted detection of breast cancer cell MCF-7', Talanta, 2018, 185, 113.

[52]. Qingsong Zhang, Jinghua Yang, Min Xu, Jinxi Chen, Yongbing Lou, Jiancheng Zhou, Lin Cheng*, 'Fabrication of WO2.72/UiO-66 nanocomposites and effects of WO2.72 ratio on photocatalytic performance: judgement of the optimal content and mechanism study', J. Chem. Technol. Biotechnol., 2018, 93, 2710.

[51]. Yongbing Lou*, Yandan Niu, Dongwen Yang, Qiaoling Xu, Yuhang Hu, Ying Shen, Jing Ming, Jinxi Chen, Lijun Zhang*, and Yixin Zhao*, 'Rod-shaped thiocyanate induced abnormal band gap broadening in SCN- doped CsPbBr3 perovskite nanocrystals', Nano Res., 2018, 11 , 2715.

[50]. Yongbing Lou*, Dan He, Zhifei Wang*, Yuhang Hu, Ying Shen, Jing Ming, Jinxi Chen, 'Nanocomposite of ultrasmall Co3O4 nanoparticles deposited on ultrathin MoS2 surfaces for excellent performance anode materials in lithium ion batteries', Chem. Eng. J. , 2017, 313, 1269.

[49]. Mengjuan Du, Dan He, Yongbing Lou*, Jinxi Chen*, 'Porous nanostructured ZnCo2O4 derived from MOF-74: High-performance anode materials for lithium ion batteries', J. Energ. Chem., 2017, 26, 673.

[48]. Jinxi Chen*, Xixi Mu, Mengjuan Du, Yongbing Lou, 'Porous rod-shaped Co3O4 derived from Co-MOF-74 as high-performance anode materials for lithium ion batteries', Inorg. Chem. Comm., 2017, 84, 241.

[47]. Wenjuan Yan, Ziyang Guo, Huoshu Xu, Yongbing Lou, Jinxi Chen* and Qiaowei Li*, 'Downsizing Metal–Organic Frameworks with Distinct Morphologies as Cathode Materials for High-capacity Li–O2 Batteries', Mater. Chem. Front., 2017, 1, 1324.

[46]. Y. Lou*, Y. Peng, X. Zhang, J. Chen*, 'Structure tuning in amino-functionalized coordination polymers based on different V-shaped dicarboxylate ligands', Inorg. Chem. Commun.,2016, , 73, 183.

[45]. Z. Wang*, X. Tang, X. Wang, D. Yang, C. Yang, Y. Lou, J. Chen*, N. He*, 'Near-infrared light-induced dissociation of zeolitic imidazole framework-8 (ZIF-8) with encapsulated CuS nanoparticles and their application as a therapeutic nanoplatform', Chem. Commun., 2016, 52, 12210.

[44]. X. Guo, T. Xing, Y. Lou*,J. Chen*, 'Controlling ZIF-67 crystals formation through various cobalt sources in aqueous solution', J. Solid State Chem., 2016, 235, 107.

[43]. Yongbing Lou*, Yixin Zhao and Jun-Jie Zhu*, 'Ultrasensitive Optical Detection of Anions by Quantum Dots', Nanoscale Horiz., 2016, 1, 125.

[42]. Yingping Zheng*, Hong Chen, Yunqian Dai, Nengneng Zhang, Wanlong Zhao, Shixian Wang, Yongbing Lou, Ying Li, Yueming Sun*, 'Preparation and characterization of Pt/TiO2 nanofibers catalysts for methanol electro-oxidation', Electrochim. Acta, 2015, 178, 74.

[41]. Hongying Liu, Youbing Lou, Fei Zhou, Hao Zhu, E.S. Abdel-Halim, Jun-Jie Zhu*; 'An amplified electrochemical strategy using DNA-QDs dendrimer superstructure for the detection of thymine DNA glycosylase activity', Biosens. Bioelectron., 2015, 71, 249.

[40]. Yongbing Lou*, Jing Liang, Yinglian Peng, Jinxi Chen*, 'Ultra-small Co3O4 nanoparticles–reduced graphene oxide nanocomposite as superior anodes for lithium-ion batteries', Phys. Chem. Chem. Phys., 2015, 17, 8885.

[39]. Hai-Bin Zhu*, Yan-Fang Wu, Ge Zhang, Yong-Bing Lou*, Jun Hu, 'Side-chain-modulated supramolecular assembly between CuX2 (X = Cl, Br) and quasi-planar π-conjugated organic synthons of 1, 3, 5-tris(2-alkylthiolpyrimidinyl)benzene: crystal structures and conductive properties', Polyhedron, 2015, 85, 60.

[38]. Tiantian Xing, Yongbing Lou*, Qilong Bao, Jinxi Chen*, 'Surfactant-Assisted Synthesis of ZIF-8 Nanocrystals in Aqueous Solution via Microwave Irradiation,' CrystEngComm, 2014, 16, 8994.

[37]. Yinhua Tao, Yongbing Lou*, Yang Li, Jinxi Chen*, 'Structural Diversity of Five New Lanthanide Coordination Polymers Tuned by Different Salt Anions,' Bull. Korean Chem. Soc., 2014, 35, 1417.

[36]. Hai-Bin Zhu*, Yan-Fang Wu, Ru-Yu Shan, Yun-Di Chen and Yong-Bing Lou*, 'Two 1D Coordination Polymers with Bis[4-(pyridin-4-yl)pyrimidinyl]disulfide (4-ppds) as Bridging Ligand,' Z. Anorg. Allg. Chem., 2014, 640, 1822.

[35]. Yongbing Lou*, Jinxi Chen*, Recent Development in One Dimensional (1D) Nanostructured TiO2 for Photoelectrochemical Water Splitting,' Nanosci. Nanotechnol. Lett., 2014, 6, 361.

[34]. Yongbing Lou, Jingjing Wang, Yinhua Tao, Jinxi Chen*, Akio Mishima and Masaaki Ohba*, 'Structure modulation of manganese coordination polymers consisting of 1,4-naphthalene dicarboxylate and 1,10-phenanthroline,' Dalton Trans., 2014, 43, 8508.

[33]. Yongbing Lou, Yinhua Tao, Jingjing Wang, Jinxi Chen* and Masaaki Ohba*, 'A new manganese coordination polymer involving in situ generated formate,' Polyhedron, 2014, 73, 72-76.

[32]. Hai-Bin Zhu*, Yan-Fang Wu, Yong-Bing Lou* and Jun Hu, 'Semiconductive tetrahedral M4L4 coordination cages (M=Ni2+ and Co2+) constructed by a rigid conjugated tris(N,N-chelate) tripod,' Synth. Met., 2014, 190, 34-38.

[31]. Yongbing Lou*, Tingting He, Fang Jiang, Jian-Jun Shi and Jun-Jie Zhu*, 'A competitive electrochemical immunosensor for the detection of human interleukin-6 based on the electrically heated carbon electrode and silver nanoparticles functionalized labels,' Talanta, 2014, 122, 135-139.

[30]. Hai-Bin Zhu*, Ru-Yu Shan, Yan-Fang Wu and Yong-Bing Lou*, 'Quasi-Planar Organic Synthon and S···X (X = S or H-C) Contacts in Flat Copper Coordination Chains: Syntheses, Structures and Conductive Behaviour,' Eur. J. Inorg. Chem., 2014, 2014(8), 1356-1363.

[29]. Yongbing Lou, Jinxi Chen*, Jing Jiang and Qilong Bao, 'Rapid synthesis of iron 1,4-naphthalenedicarboxylate by microwave irradiation with enhanced gas sorption,' Dalton Trans., 2014, 43, 1261.

[28]. Yongbing Lou*, Yixin Zhao, Jinxi Chen and Jun-Jie Zhu*, 'Metal ions optical sensing by semiconductor quantum dots,' J. Mater. Chem. C, 2014, 2(4), 595. (Front Cover Article)

[27]. Yongbing Lou*, Jingjing Zhang, Lin Zhu and Lixu Lei, 'An alternative synthesis route of LiFePO4-carbon composites for Li-ion cathodes,' J. Nanomater., 2013, 2013, 869180.

[26]. Yongbing Lou*, Jingjing Zhang, Jing Liang and Yan Liu, 'A facile electrochemical deposition method for nanostructured tellurides thin films from citric acid baths,' Chalcogenide Lett., 2013, 10(10), 373-383.

[25]. Qilong Bao, Yongbing Lou*, Tiantian Xing and Jinxi Chen*, 'Rapid synthesis of zeolitic imidazolate framework-8 (ZIF-8) in aqueous solution via microwave irradiation,' Inorg. Chem. Commun., 2013, 37, 170-173.

[24]. Yongbing Lou*, '(E)-N,N'-Bis[2-(5-bromo-1H-indol-3-yl)eth-yl]-N,N'-(but-2-ene-1,4-di-yl)bis-(4-me thyl-benzene-sulfonamide),' Acta Crystallogr., Sect. E, 2011, 67(11), 02987.

[23]. Yongbing Lou*, Xiaoyan Shen and Yueming Sun, 'Improved solvothermal synthesis and characterization of copper indium sulfide nanoparticles,' 东南大学学报(自然科学版), 2011, 41(6), 1325-1329.



===== Articles Published Prior to Southeast University ======.

[22]. Y. Zhao, H. Pan, Y. Lou, X. Qiu, J. Zhu* and C. Burda*, 'Plasmonic Cu2-xS nanocrystals: optical and structural properties of copper-deficient copper(I) sulfides,' J. Am. Chem. Soc., 131(12), 4253-4261, 2009.

[21]. K. M. Solntsev*, O. Poizat*, J. Dong, J. Rehault, Y. Lou, C. Burda and L. M. Tolbert*, 'Meta and para effects in the ultrafast excited-state dynamics of the green fluorescent protein chromophores,' J. Phys. Chem. B, 112(9), 2700-2711, 2008.

[20]. S. Dayal, Y. Lou, A. C. Samia, J. C. Berlin, M. E. Kenney* and C. Burda*, 'Observation of non-Forster-type energy-transfer behavior in quantum dot-phthalocyanine conjugates,' J. Am. Chem. Soc., 128(43), 13974-13975, 2006.

[19]. S. Dayal, R. Królicki, Y. Lou, X. Qiu, J. C. Berlin, M. E. Kenney and C. Burda*, 'Femtosecond time-resolved energy transfer from CdSe nanoparticles to phthalocyanines,' Appl. Phys. B, 84(1-2), 309-315, 2006.

[18]. M. Yin, C. K. Wu, Y. Lou, C. Burda, J. T. Koberstein, Y. Zhu and S. O'Brien*, 'Copper oxide nanocrystals,' J. Am. Chem. Soc., 127(26), 9506-9511, 2005.

[17]. X. Qiu, Y. Lou, A. C. Samia, A. Devadoss, J. D. Burgess, S. Dayal and C. Burda*, 'PbTe nanorods by sonoelectrochemistry,' Angew. Chem. Int. Ed., 44(36), 5855-5857, 2005.

[16]. Yongbing Lou, Ming Yin, Stephen O’Brien and Clemens Burda*, 'Electron-hole pair relaxation dynamics in binary copper-based semiconductor quantum dots,' J. Electrochem. Soc., 152(6), G427, 2005.

[15]. X. Chen, A. C. Samia, Y. Lou and C. Burda*, 'Investigation of the crystallization process in 2 nm CdSe quantum dots,' J. Am. Chem. Soc., 127(12), 4372-4375, 2005.

[14]. X. Chen, Y. B. Lou, A. C. S. Samia, C. Burda* and J. L. Gole*, 'Formation of oxynitride as the photocatalytic enhancing site in nitrogen-doped titania nanocatalysts: comparison to a commercial nanopowder,' Adv. Funct. Mater., 15(1), 41-49, 2005.

[13]. Xiaobo Chen, Yongbing Lou, Smita Dayal, Xiaofeng Qiu, Robert Krolicki, Clemens Burda*, Chengfang Zhao and James Becker, 'Doped semiconductor nanomaterials,' J. Nanosci. Nanotechnol., 5(9), 1408-1420, 2005.

[12]. A. C. Samia, Y. Lou, C. Burda*, R. A. Senter and J. L. Coffer*, 'Effect of the erbium dopant architecture on the femtosecond relaxation dynamics of silicon nanocrystals,' J. Chem. Phys., 120(18), 8716-8723, 2004.

[11]. J. L. Gole*, J. D. Stout, C. Burda*, Y. B. Lou and X. B. Chen, 'Highly efficient formation of visible light tunable TiO2-xNx photocatalysts and their transformation at the nanoscale,' J. Phys. Chem. B, 108(4), 1230-1240, 2004.

[10]. X. B. Chen, Y. B. Lou and C. Burda*, 'Spectroscopic investigation of II-VI core-shell nanoparticles: CdSe/CdS,' Int. J. Nanotechnol., 1(1-2), 105-118, 2004.

[9]. Yongbing Lou, Anna C. S. Samia, Jonathan Cowen, Kulbinder Banger, Xiaobo Chen, Hyunju Lee and Clemens Burda*, 'Evaluation of the photoinduced electron relaxation dynamics of Cu1.8S quantum dots,' Phys. Chem. Chem. Phys., 5(6), 1091-1095, 2003.

[8]. Yongbing Lou, Xiaobo Chen, Anna C. Samia and Clemens Burda*, 'Femtosecond Spectroscopic Investigation of the Carrier Lifetimes in Digenite Quantum Dots and Discrimination of the Electron and Hole Dynamics via Ultrafast Interfacial Electron Transfer,' J. Phys. Chem. B, 107(45), 12431-12437, 2003.

[7]. Xiaobo Chen, Yongbing Lou, Anna C. Samia and Clemens Burda*, 'Coherency strain effects on the optical response of core/shell heteronanostructures,' Nano Lett., 3(6), 799-803, 2003.

[6]. Clemens Burda*, Yongbing Lou, Xiaobo Chen, Anna C. S. Samia, John Stout and James L. Gole, 'Enhanced nitrogen doping in TiO2 nanoparticles,' Nano Lett., 3(8), 1049-1051, 2003.

[5]. J. Luo, M. M. Maye, Y. B. Lou, L. Han, M. Hepel and C. J. Zhong*, 'Catalytic activation of core-shell assembled gold nanoparticles as catalyst for methanol electrooxidation,' Catal. Today, 77(1-2), 127-138, 2002.

[4]. J. Luo, Y. B. Lou, M. M. Maye, C. J. Zhong* and M. Hepel, 'An EQCN assessment of electrocatalytic oxidation of methanol at nanostructured Au-Pt alloy nanoparticles,' Electrochem. Commun., 3(4), 172-176, 2001.

[3]. Y. B. Lou, M. M. Maye, L. Han, J. Luo and C. J. Zhong*, 'Gold-platinum alloy nanoparticle assembly as catalyst for methanol electrooxidation,' Chem. Commun.(5), 473-474, 2001.

[2]. F. X. Zhang, W. X. Zheng, M. M. Maye, Y. B. Lou, L. Han and C. J. Zhong*, 'An infrared reflection spectroscopic assessment of interfacial derivatization and reactivity at inter-shell linked nanoparticle films,' Langmuir , 16(24), 9639-9644, 2000..

[1]. M. M. Maye, Y. B. Lou and C. J. Zhong*, 'Core-shell gold nanoparticle assembly as novel electrocatalyst of CO oxidation,' Langmuir, 16(19), 7520-7523, 2000.














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