Study of the structure of 3D-ordered macroporous GaN-ZnS:Mn nanocomposite films View Full Text


Ontology type: schema:ScholarlyArticle     


Article Info

DATE

2015-05

AUTHORS

D. A. Kurdyukov, I. I. Shishkin, S. A. Grudinkin, A. A. Sitnikova, M. V. Zamoryanskaya, V. G. Golubev

ABSTRACT

A film-type 3D-ordered macroporous GaN-ZnS:Mn nanocomposite with the structure of an inverted opal is fabricated. Structural studies of the nanocomposite are performed, and it is shown that GaN and ZnS:Mn introduced into the pores of the silica opal are nanocrystallites misoriented with respect to each other. It is shown that the nanocomposite is a structurally perfect 3D photonic crystal. The efficiency of using a buffer of GaN crystallites to preclude interaction between the surface of the spherical a-SiO2 particles forming the opal matrix and chemically active substances introduced into the pores is demonstrated. More... »

PAGES

658-662

Journal

TITLE

Semiconductors

ISSUE

5

VOLUME

49

Author Affiliations

Identifiers

URI

http://scigraph.springernature.com/pub.10.1134/s1063782615050115

DOI

http://dx.doi.org/10.1134/s1063782615050115

DIMENSIONS

https://app.dimensions.ai/details/publication/pub.1037862795


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45 schema:description A film-type 3D-ordered macroporous GaN-ZnS:Mn nanocomposite with the structure of an inverted opal is fabricated. Structural studies of the nanocomposite are performed, and it is shown that GaN and ZnS:Mn introduced into the pores of the silica opal are nanocrystallites misoriented with respect to each other. It is shown that the nanocomposite is a structurally perfect 3D photonic crystal. The efficiency of using a buffer of GaN crystallites to preclude interaction between the surface of the spherical a-SiO2 particles forming the opal matrix and chemically active substances introduced into the pores is demonstrated.
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