Large-scale, 2D arrays of magnetic nanoparticles. Rybczynski, J., Ebels, U., & Giersig, M. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 219(1-3):1--6, June, 2003. Paper doi abstract bibtex Large-scale, 2D arrays of perfectly ordered magnetic nanoparticles were prepared using nanosphere lithography. We modified the preparation method based on a self-assembly of latex particles on water surface. Using such particles, with a diameter from 100 nm to 1 [mu]m, it was possible to prepare arrays over 1 cm2, with areas of over 50 [mu]m2 without any structural defects. By the evaporation of nickel or cobalt, periodic magnetic particle arrays were produced. To change particle morphology, annealing was carried out at 900��C for 50 min. Modification of the distance between particles was also practicable by using double-layered masks.
@article{rybczynski_large-scale_2003,
title = {Large-scale, 2D arrays of magnetic nanoparticles},
volume = {219},
issn = {0927-7757},
url = {http://www.sciencedirect.com/science/article/B6TFR-48R18KJ-1/2/51694714c878fa93bad0a1e6852b229f},
doi = {10.1016/S0927-7757(03)00011-6},
abstract = {Large-scale, 2D arrays of perfectly ordered magnetic nanoparticles were prepared using nanosphere lithography. We modified the preparation method based on a self-assembly of latex particles on water surface. Using such particles, with a diameter from 100 nm to 1 [mu]m, it was possible to prepare arrays over 1 cm2, with areas of over 50 [mu]m2 without any structural defects. By the evaporation of nickel or cobalt, periodic magnetic particle arrays were produced. To change particle morphology, annealing was carried out at 900��C for 50 min. Modification of the distance between particles was also practicable by using double-layered masks.},
number = {1-3},
urldate = {2008-12-02TZ},
journal = {Colloids and Surfaces A: Physicochemical and Engineering Aspects},
author = {Rybczynski, J. and Ebels, U. and Giersig, M.},
month = jun,
year = {2003},
keywords = {Langmuir monolayers, Magnetic nanostructures, Nanosphere lithography, Nickel catalysts},
pages = {1--6}
}
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