Role of particle anisotropy and deposition method on the patterning of nano-objects by the photovoltaic effect in LiNbO3

Feb 8, 2025

by H. Burgos, M. Jubera, J. Villarroel, A. García-Cabañes, F. Agulló-López and M. Carrascosa
Abstract:
Novel experiments and data analysis on the emergent use of evanescent photovoltaic fields generated by visible illumination of Fe:LiNbO3 for trapping, patterning and massif manipulation of micro-and nano-objects are reported. The data include experiments on a variety of particles (dielectric and conductive) and illumination geometries. The data reveal the key role of several physical parameters such as the modulation m of the exciting light pattern, particle anisotropy and deposition method. The observed dependences are satisfactorily described within a theoretical framework describing the dielectrophoretic forces acting on the substrate surface.
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Reference:
H. Burgos, M. Jubera, J. Villarroel, A. García-Cabañes, F. Agulló-López and M. Carrascosa, “Role of particle anisotropy and deposition method on the patterning of nano-objects by the photovoltaic effect in LiNbO3”, Optical Materials, vol. 35, no. 9, pp. 1700–1705.
Bibtex Entry:
@article{burgos_role_2013,
	title = {Role of particle anisotropy and deposition method on the patterning of nano-objects by the photovoltaic effect in {LiNbO3}},
	volume = {35},
	issn = {0925-3467},
	url = {http://www.sciencedirect.com/science/article/pii/S0925346713002322},
	doi = {10.1016/j.optmat.2013.04.035},
	abstract = {Novel experiments and data analysis on the emergent use of evanescent photovoltaic fields generated by visible illumination of Fe:LiNbO3 for trapping, patterning and massif manipulation of micro-and nano-objects are reported. The data include experiments on a variety of particles (dielectric and conductive) and illumination geometries. The data reveal the key role of several physical parameters such as the modulation m of the exciting light pattern, particle anisotropy and deposition method. The observed dependences are satisfactorily described within a theoretical framework describing the dielectrophoretic forces acting on the substrate surface.},
	number = {9},
	urldate = {2017-08-01},
	journal = {Optical Materials},
	author = {Burgos, H. and Jubera, M. and Villarroel, J. and García-Cabañes, A. and Agulló-López, F. and Carrascosa, M.},
	month = jul,
	year = {2013},
	keywords = {Nanotechnology, Nanoparticles, Photovoltaic field, Photovoltaic-tweezers},
	pages = {1700--1705},
	file = {ScienceDirect Full Text PDF:E:\cmam_papers\files\770\Burgos et al. - 2013 - Role of particle anisotropy and deposition method .pdf:application/pdf;ScienceDirect Full Text PDF:E:\Usuarios\Administrator\Zotero\storage\RMYTP3DJ\Burgos et al. - 2013 - Role of particle anisotropy and deposition method .pdf:application/pdf;ScienceDirect Snapshot:E:\cmam_papers\files\769\S0925346713002322.html:text/html;ScienceDirect Snapshot:E:\Usuarios\Administrator\Zotero\storage\QV3K4PHC\S0925346713002322.html:text/html},
}