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Publication: (a full list of publication)
38. Nanotechnology: Top-down approach, invited review, in preparation.
37. Nanofabrication at high throughput and low cost, B. Wiley, D. Qin, Y. Xia, ACS Nano 4, 3554 (2010)
36. Soft lithography for micro- and nanoscale patterning
D. Qin, Y. Xia, and G. M. Whitesides, Nature Protocols, 5, 491 (2010).
35. Rapid prototyping of microstructures by soft lithography for biotechnology
D. B. Wolfe, D. Qin, and G. M. Whitesides, in Methods in Molecular Biology: Microengineering in Biotechnology (M. P. Hughes and K. F. Hoettges, Eds.), Humana Press, New York, NY, pp. 81-107 (2009).
34. Inverted size-dependence of surface-enhanced Raman scattering on gold nanohole and nanodisk arrays
Q. Yu, P. Guan, D. Qin, G. Golden, and P. Wallace, Nano Letters, 8, 1923 (2008).
33. Light-controlled molecular shuttles made from motor proteins carrying cargo on engineered surface H. Hess, J. Clemmens, D. Qin, J. Howard, and V. Vogel, Nano Letters, 1, 235 (2001).
32. Surface patterning and its application in wetting/dewetting studies
Y. Xia, D. Qin, and Y. Yin, Current Opinion in Colloid and Interface Science, 6, 54 (2001).
31. A soft lithographic approach to the fabrication of highly ordered 2D arrays of magnetic nanoparticles on the surfaces of silicon substrates
Z. Zhong, B. Gates, D. Qin, and Y. Xia, Langmuir, 16, 10369 (2000).
30. Collisional deactivation of highly vibrationally excited SO2: A time-resolved FTIR emission spectroscopy study
D. Qin, G. V. Hartland, and H. L. Dai, Zeitschrift f�r Physical Chemistry, 214, 1501 (2000).
30. Collisional deactivation of highly vibrationally excited SO2: A time-resolved FTIR emission spectroscopy study
D. Qin, G. V. Hartland, and H. L. Dai, Zeitschrift f�r Physical Chemistry, 214, 1501 (2000).
29. V-V energy transfer from highly vibrationally excited molecules through transition dipole coupling: A quantitative test on energy transfer from SO2 to SF6
D. Qin, G. V. Hartland, and H. L. Dai, Journal of Physical Chemistry A, 104, 10460 (2000).
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