custzsh 2008-01-12 20:00
core-shell naoparticles articles collection --2
[img]http://www.robelek.de/mediac/400_0/media/QD-core-shell_2.jpg[/img] [img]http://www.robelek.de/mediac/400_0/media/QD-DNA-conj_2.jpg[/img]
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1.Fluorescence Blinking Statistics from CdSe Core and Core/Shell Nanorods*L�~�u�Y�C(l�A
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Siying Wang,† Claudia Querner,† Thomas Emmons,‡ Marija Drndic,*,† and
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Catherine H. Crouch*,‡
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J. Phys. Chem. B 2006, 110, 23221-23227
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2.Factors Controlling the Formation of Core-Shell Zeolite-Zeolite�~�v�k$r�p�U�^�Z
Composites(K�~�@�D(U�P
Younes Bouizi,† Loı¨c Rouleau,‡ and Valentin P. Valtchev*,†1U3Z v�B6P'M
Chem. Mater. 2006, 18, 4959-4966
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3.Facile Preparation Method of SiO2/PS/TiO2 Multilayer Core-Shell
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Hybrid Microspheres�];B�X�o�|&M�o�f�^$V
Juan Zhou,† Min Chen,‡ Xiaoguang Qiao,† and Limin Wu*,†,‡
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Langmuir 2006, 22, 10175-10179�S�k%v�d�U
4.Fabrication of Monodisperse Magnetic Fe3O4-SiO2 Nanocomposites with Core-Shell
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Structures
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Hua Fang,* Chun-yang Ma, Tai-li Wan, Mei Zhang, and Wei-hai Shi,L._$}
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J. Phys. Chem. C, 2007, 111, 1065-1070
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5.Fabrication and Characterization of Mesoporous Co3O4 Core/Mesoporous Silica Shell
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Nanocomposites�g�h�}�m%t P�u�E
Yongde Meng, Dairong Chen,* and Xiuling Jiao*�U�x*@"U*w
J. Phys. Chem. B 2006, 110, 15212-15217,h8z0o9c�\8I
6.Excited Carrier Dynamics of r-Cr2O3/r-Fe2O3 Core-Shell Nanostructures
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Gang Xiong, Alan G. Joly,* Gary P. Holtom, Chongmin Wang, David E. McCready,
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Kenneth M. Beck, and Wayne P. Hess�}�R�Q�S
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J. Phys. Chem. B 2006, 110, 16937-16940*]�S�~�_�_$E�d%h
7.Electrostatic Aggregation and Formation){�s�t�^�?
of Core-Shell Suprastructures in Binary
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Mixtures of Charged Metal Nanoparticles
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Alexander M. Kalsin,† Anatoliy O. Pinchuk,‡ Stoyan K. Smoukov,†
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Maciej Paszewski,† George C. Schatz,‡ and Bartosz A. Grzybowski*,†
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NANO LETTERS 2006 6(9)1896-1903
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8.Electromagnetic Functionalized and Core-Shell Micro/Nanostructured Polypyrrole3q
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Xin Li,† Meixiang Wan,*,† Yen Wei,‡ Jiaoyan Shen,§ and Zhaojia Chen§5T*l'm2_1f�W�r�|�y
J. Phys. Chem. B 2006, 110, 14623-14626
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9.Electrochemical and Spectroscopic Characterization of Organic�{ U*e#W�[!`9F#~�o9}(|8n
Compound Uptake in Silica Core-Shell Nanocapsules
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Thomas J. Joncheray,† Pierre Audebert,‡ Evan Schwartz,†,‡ Aleksa V. Jovanovic,†
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Omar Ishaq,† Jorge L. Cha´vez,† Robert Pansu,‡ and Randolph S. Duran*,†�K(b�e�C�m
Langmuir 2006, 22, 8684-8689�k&w�]&n \5p
10.Effect of Quantum and Dielectric
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Confinement on the Exciton-Exciton
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Interaction Energy in Type II Core/Shell
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Semiconductor Nanocrystals
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Andrei Piryatinski,*,† Sergei A. Ivanov,‡,§ Sergei Tretiak,†,§ and Victor I. Klimov*,‡,§2p�f:~5B2x&[�W
NANO LETTERS 2007 Vol. 7, No. 1 108-115*m6?2U�P8@�f8t7j
11.Dendritic Core-Shell Macromolecules Soluble in9X�^�t!x,l*[*w
Supercritical Carbon Dioxide
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Victor Martinez,† Stefan Mecking,*,† Thierry Tassaing,‡�Y0[+C�?�q�A
Marcel Besnard,‡ Sandy Moisan,§ Francüois Cansell,§ and
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Cyril Aymonier*,§0}"p
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Macromolecules 2006, 39, 3978-3979+c�x(|2X�i�l�t
12.Cylindrical Core-Shell Brushes Prepared by a Combination of ROP
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and ATRP
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Hyung-il Lee,† Wojciech Jakubowski,† Krzysztof Matyjaszewski,*,† Sherryl Yu,‡ and
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Sergei S. Sheiko‡5S.O�P�p
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Macromolecules 2006, 39, 4983-4989
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13.Crystal Structures and Growth Mechanisms of Au@Ag Core-Shell
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Nanoparticles Prepared by the Microwave-Polyol Method/r�} O'{&X�?!z5H�?
Masaharu Tsuji,*,†,‡ Nobuhiro Miyamae,‡ Seongyop Lim,§ Kousuke Kimura,‡ Xu Zhang,†,|�q+T4i�^�x%l%t%G K
Sachie Hikino,† and Michiko Nishio‡�S.F0o9@)@&h�U�D!O%y�m�c3X
Crystal Growth & Design, Vol. 6, No. 8, 2006�D9E�N3t�P
14.Core/Shell Nanoparticles with Lecithin Lipid Cores for Protein
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Keun Sang Oh,† Sung Kyun Han,† Hyun Suk Lee,† Hyoung Mo Koo,† Ree Sun Kim,†
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Kyung Eun Lee,‡ Sung Sik Han,‡ Sun Hang Cho,§ and Soon Hong Yuk*,†'z5G�f-o�z�v-]�~&U�z/[
Biomacromolecules 2006, 7, 2362-2367
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15.Core-Shell Microspherical Ti1-xZrxO2 Solid Solution Photocatalysts Directly from2p�L5F$w;I K1b
Ultrasonic Spray Pyrolysis9l�U�A�B�^�E�D
Yu Huang,† Zhi Zheng,‡ Zhihui Ai,† Lizhi Zhang,*,† Xiaoxing Fan,§ and Zhigang Zou§
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J. Phys. Chem. B 2006, 110, 19323-19328
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punkx 2008-04-14 09:45
空心球结构纳米材料制备新方法
论文作者:高濂等 期刊:《晶体生长与设计》 发布时间:2008-4-8 15:4:0
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空心球结构纳米材料制备新方法 0k*y�@0?7N�R7k
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目前,纳米材料的结构控制和性能研究已成为全球纳米技术的研究热点。发展具有结构可控和优异性能的纳米功能材料成为材料科学领域的首要任务之一。空心球纳米材料是一大类重要的纳米结构材料,其制备技术已日趋成熟并逐步实用化,在药物释放、气敏等领域具有很多重要的应用。然而,常规制备空心球纳米材料的技术,如模板法和Oswald熟化生长等需要相对复杂的操作工艺,通用性不好,有一定的局限性。
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最近,中国科学院上海硅酸盐研究所高濂研究员带领的课题组发展了一种简单通用的方法,通过控制实验条件在温和的反应条件下获得了ZnO的纳米棒束、空心球结构,这些材料具有比较均匀的尺寸和良好的发光性能。他们还对ZnO纳米棒束、空心球结构的形成机理进行了探讨,提出了一种反应机理“碱腐蚀机制”,认为反应后期中过量的碱的腐蚀作用是形成空心球结构的重要原因。同时,该方法也适用于Cu, Co, Ni等其他几种过渡族金属氧化物空心球结构的制备。这项工作是对空心球结构制备方法的新的扩展,相关结果已发表在著名杂志《晶体生长与设计》(Crystal Growth & Design)上。该工作得到国家自然科学基金项目和上海市科委重大项目的资助和支持。(来源:中国科学院上海硅酸盐研究所)8k�m�];_#S�B3A
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(《晶体生长与设计》(Crystal Growth & Design),8 (2), 460–464, 2008,Zhitao Chen,Lian Gao)