Nanostructures enabled by On-Wire Lithography (OWL)

被引:25
作者
Braunschweig, Adam B.
Schmucker, Abrin L.
Wei, Wei David
Mirkin, Chad A. [1 ]
机构
[1] Northwestern Univ, Dept Chem, Evanston, IL 60208 USA
来源
CHEMICAL PHYSICS LETTERS | 2010年 / 486卷 / 4-6期
关键词
ENHANCED RAMAN-SPECTROSCOPY; SURFACE-PLASMON RESONANCE; METAL NANOPARTICLES; GOLD NANOPARTICLES; ELECTRICAL DETECTION; DISTANCE-DEPENDENCE; TRANSPORT JUNCTIONS; OPTICAL-PROPERTIES; SILVER ELECTRODE; NANOWIRES;
D O I
10.1016/j.cplett.2010.01.009
中图分类号
O64 [物理化学(理论化学)、化学物理学];
学科分类号
070304 ; 081704 ;
摘要
Nanostructures fabricated by a novel technique, termed On-Wire Lithography (OWL), can be combined with organic and biological molecules to create systems with emergent and highly functional properties. OWL is a template-based, electrochemical process for forming gapped cylindrical structures on a solid support, with feature sizes (both gap and segment length) that can be controlled on the sub-100 nm length scale. Structures prepared by this method have provided valuable insight into the plasmonic properties of noble metal nanomaterials and have formed the basis for novel molecular electronic, encoding, and biological detection devices. (C) 2010 Elsevier B. V. All rights reserved.
引用
收藏
页码:89 / 98
页数:10
相关论文
共 74 条
[1]   NANOWIRES FORMED IN ANODIC OXIDE NANOTEMPLATES [J].
ALMAWLAWI, D ;
LIU, CZ ;
MOSKOVITS, M .
JOURNAL OF MATERIALS RESEARCH, 1994, 9 (04) :1014-1018
[2]   Rationally designed nanostructures for surface-enhanced Raman spectroscopy [J].
Banholzer, Matthew J. ;
Millstone, Jill E. ;
Qin, Lidong ;
Mirkin, Chad A. .
CHEMICAL SOCIETY REVIEWS, 2008, 37 (05) :885-897
[3]   On-wire lithography: synthesis, encoding and biological applications [J].
Banholzer, Matthew J. ;
Qin, Lidong ;
Millstone, Jill E. ;
Osberg, Kyle D. ;
Mirkin, Chad A. .
NATURE PROTOCOLS, 2009, 4 (06) :838-848
[4]   Detection in near-field domain of biomolecules adsorbed on a single metallic nanoparticle [J].
Barbillon, G. ;
Bijeon, J. -L. ;
Bouillard, J. -S. ;
Plain, J. ;
De la Chapelle, M. Lamy ;
Adam, P. -M. ;
Royer, P. .
JOURNAL OF MICROSCOPY, 2008, 229 (02) :270-274
[5]   Nanoparticles with Raman spectroscopic fingerprints for DNA and RNA detection [J].
Cao, YWC ;
Jin, RC ;
Mirkin, CA .
SCIENCE, 2002, 297 (5586) :1536-1540
[6]   Directed rotational motion of microscale objects using interfacial tension gradients continually generated via catalytic reactions [J].
Catchmark, JM ;
Subramanian, S ;
Sen, A .
SMALL, 2005, 1 (02) :202-206
[7]   Remotely powered self-propelling particles and micropumps based on miniature diodes [J].
Chang, Suk Tai ;
Paunov, Vesselin N. ;
Petsev, Dimiter N. ;
Velev, Orlin D. .
NATURE MATERIALS, 2007, 6 (03) :235-240
[8]   Gold nanocages: Engineering their structure for biomedical applications [J].
Chen, JY ;
Wiley, B ;
Li, ZY ;
Campbell, D ;
Saeki, F ;
Cang, H ;
Au, L ;
Lee, J ;
Li, XD ;
Xia, YN .
ADVANCED MATERIALS, 2005, 17 (18) :2255-2261
[9]   An investigation of the mechanisms of electronic sensing of protein adsorption on carbon nanotube devices [J].
Chen, RJ ;
Choi, HC ;
Bangsaruntip, S ;
Yenilmez, E ;
Tang, XW ;
Wang, Q ;
Chang, YL ;
Dai, HJ .
JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 2004, 126 (05) :1563-1568
[10]  
CHEN XD, 2009, NANO LETT
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