21.
20.
19.
Restriction of Receptor Movement Alters Cellular Response: Physical Force Sensing by EphA2
Science, 327(5971), 1380-1385, 2010.
Salaita, K.*; Nair, P.N.*; Petit, R.; Das, D.; Gray, J.W.; Groves, J.T.;
[link][pdf][Science][nature materials][Nature Reviews Molecular Cell Biology][Science Signaling]
18.
The Effects of Organic Vapor on Alkanethiol Deposition Via Dip-Pen
Nanolithography,Scanning, 32 (1); 9-14, 2010.
Salaita, K.; Amarnath, A.; Higgins, T. B.; Mirkin, C. A.;,
17.
Electrostatic Imaging of DNA Microarrays Using Charged Particles
Nature Biotechnology, 26(7); 825-830, 2008.
Clack, N. C.*; Salaita, K.*; Groves, J. T.;
16.
Applications of Dip-Pen Nanolithography
Nature Nanotechnology, 2; 145-155, 2007.
Salaita, K.; Wang, Y.; Vega, R. A.; Mirkin, C. A.;
15.
DPN-Generated Nanostructures as Positive Resists For Preparing Lithographic Masters or Hole Arrays
Nano Lett, , (6)11; 2493-2498, 2006.
Salaita, K.; Lee, S.-W.; Ginger, D. S; Mirkin, C. A.;
14.
Massively Parallel Dip-Pen Nanolithography with 55,000 Two-Dimensional Arrays
Salaita, K.*; Wang, Y.*; Fragala, J.; Vega, R. A.; Liu, C.; Mirkin, C. A.;
Angew. Chem. Int. Edit., 45(43); 7220-7223. (Cover Article), 2006.
13.
Probing Electrochemical Potential Versus Surface Distance by Molecular Orientation
J. Phys. Chem. B., 110(37); 18151-18153 ,2006.
Sun, P.; Zong, H.; Salaita, K.; Ketter, J. B.; Hoffman, B. M.; Mirkin, C. A.;
12.
Metallomacrocycles Incorporating Cofacially Aligned Diimide Units
Chem. Asian J., 2006, 1(5); 686-692. (Cover Article)
Khoshbin, M. S.; Ovchinnikov, M. V., Salaita, K., Mirkin, C. A., Stern, C. L., Zakharov, L. N. Rheingold, A. L.;.
11.
Nanopatterns of Biological Molecules. In Nanobiotechnology II: Concept, Applications and Perspectives
Wiley-VCH, Weinheim, Germany, Chapter 13, 235-262, 2007.
Vega, R. A.; Salaita, K.; Kakkessery, J. J.; Mirkin, C. A.;
10.
Biologically Active Protein Nanoarrays Generated Using Parallel Dip-Pen
Lee, S. W.; Oh, B. K.; Sanedrin, R. G.; Salaita, K.; Mirkin, C. A.
Nanolithography. Adv. Mat. 2006, 18, 1133-1136.
9.
Fabrication of Colloidal Nanostructures from Nanolithographically Defined Templates
Interface, 14(4); 58-59, 2005.
Salaita, K.
8.
Sub-100nm, Centimeter-Scale, Parallel Dip-Pen
Nanolithography, Small, 1(10); 940-945, 2005.
Salaita, K.; Lee, S.-W.; Wang, X.; Huang, L.; Dellinger, T. M.; Liu, C.; Mirkin, C. A.
7.
Spontaneous “Phase Separation” of Patterned Binary Alkanethiol Mixtures
J. Am. Chem. Soc, 127(32); 11283-11287, 2005.
Salaita,K.; Amarnath, A.; Maspoch, D.; Higgins, T. B.; Mirkin, C. A.
6.
Nanoarrays of Single Virus Particles
Angew. Chem. Int. Edit. 44(37); 6013-6015, 2005.
Vega, R. A.; Maspoch D.; Salaita, K.; Mirkin C. A.
5.
The Controlled Evolution of a Single Crystal
Science, 307; 1763-1766, 2005,.
Liu, X.; Zhang, Y.; Goswami, D. K.; Okasinski, J. S.; Salaita, K.; Sun, P.; Bedzyk, M. B.; Mirkin, C. A.
4.
3.
Size and Temperature Dependence of Surface Plasmon Absorption of Gold Nanoparticles Induced by Tris(2,2'-bipyridine)ruthenium(II)
J. Phys. Chem. B. 108(40); 15543-15551, 2004.
Xu, X.-H. N.; Huang, S.; Brownlow, W.; Salaita, K.; Jeffers, R. B.
2.
A Massively Parallel Electrochemical Approach to the Miniaturization of Organic Micro- and Nanostructures on Surfaces.
Langmuir, 20(3); 962-968, 2004.
Zhang, Y.*;Salaita, K.*; Lim. J.-H.; Lee, K.-B.; Mirkin, C. A.
1.
Electrochemical Whittling of Organic Nanostructures
Nano Lett. 2(12);1389-1392, 2002.
Zhang, Y.; Salaita, K.; Lim, J.-H.; Mirkin, C. A.