Lithium doped zinc oxide photoluminescence films prepared by spray pyrolysis

A. Ortiz; M. Garcia; C. Falcony

doi:10.1016/0254-0584(90)90102-G

Lithium doped zinc oxide photoluminescence films prepared by spray pyrolysis

A. Ortiz, M. Garcia, C. Falcony

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Resumen

Lithium doped zinc oxide photoluminescent films have been prepared by the spray pyrolysis technique. All deposited films show a hexagonal polycrystalline structure. The optical transmission depends on the substrate temperatures (Ts) which show an absorption edge shifting to longer wavelengths with higher Ts. The photoluminescence spectra of samples deposited at low Ts show two emissions located at 420nm and 500nm, associated with te blue emission of the pyrex glass substrate and the blue green emission characteristic of intrinsic zinc oxide, respectively. Films deposited at high Ts show a light emission peak at 555nm. This later peak seems to be associated with the incorporation of Li in the ZnO film.

Idioma original	Inglés
Páginas (desde-hasta)	383-388
Número de páginas	6
Publicación	Materials Chemistry and Physics
Volumen	24
N.º	4
DOI	https://doi.org/10.1016/0254-0584(90)90102-G
Estado	Publicada - feb. 1990
Publicado de forma externa	Sí

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@article{463d17bcc31642a6b3628cb7ca13a020,

title = "Lithium doped zinc oxide photoluminescence films prepared by spray pyrolysis",

abstract = "Lithium doped zinc oxide photoluminescent films have been prepared by the spray pyrolysis technique. All deposited films show a hexagonal polycrystalline structure. The optical transmission depends on the substrate temperatures (Ts) which show an absorption edge shifting to longer wavelengths with higher Ts. The photoluminescence spectra of samples deposited at low Ts show two emissions located at 420nm and 500nm, associated with te blue emission of the pyrex glass substrate and the blue green emission characteristic of intrinsic zinc oxide, respectively. Films deposited at high Ts show a light emission peak at 555nm. This later peak seems to be associated with the incorporation of Li in the ZnO film.",

author = "A. Ortiz and M. Garcia and C. Falcony",

note = "Funding Information: ACKNOWLEDGMENTS The authors would like to thank Juan Garcia and Aar{"}on S&chez for technical assistance. We also thank Miss Leticia Baxios for the X-ray diffraction measurements. We acknowledge the partial financial support of Consejo National de Ciencia y Tecnologia (CONACYT, dxico) and the Organization of American States.",

year = "1990",

month = feb,

doi = "10.1016/0254-0584(90)90102-G",

language = "Ingl{\'e}s",

volume = "24",

pages = "383--388",

journal = "Materials Chemistry and Physics",

issn = "0254-0584",

number = "4",

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TY - JOUR

T1 - Lithium doped zinc oxide photoluminescence films prepared by spray pyrolysis

AU - Ortiz, A.

AU - Garcia, M.

AU - Falcony, C.

N1 - Funding Information: ACKNOWLEDGMENTS The authors would like to thank Juan Garcia and Aar"on S&chez for technical assistance. We also thank Miss Leticia Baxios for the X-ray diffraction measurements. We acknowledge the partial financial support of Consejo National de Ciencia y Tecnologia (CONACYT, dxico) and the Organization of American States.

PY - 1990/2

Y1 - 1990/2

N2 - Lithium doped zinc oxide photoluminescent films have been prepared by the spray pyrolysis technique. All deposited films show a hexagonal polycrystalline structure. The optical transmission depends on the substrate temperatures (Ts) which show an absorption edge shifting to longer wavelengths with higher Ts. The photoluminescence spectra of samples deposited at low Ts show two emissions located at 420nm and 500nm, associated with te blue emission of the pyrex glass substrate and the blue green emission characteristic of intrinsic zinc oxide, respectively. Films deposited at high Ts show a light emission peak at 555nm. This later peak seems to be associated with the incorporation of Li in the ZnO film.

AB - Lithium doped zinc oxide photoluminescent films have been prepared by the spray pyrolysis technique. All deposited films show a hexagonal polycrystalline structure. The optical transmission depends on the substrate temperatures (Ts) which show an absorption edge shifting to longer wavelengths with higher Ts. The photoluminescence spectra of samples deposited at low Ts show two emissions located at 420nm and 500nm, associated with te blue emission of the pyrex glass substrate and the blue green emission characteristic of intrinsic zinc oxide, respectively. Films deposited at high Ts show a light emission peak at 555nm. This later peak seems to be associated with the incorporation of Li in the ZnO film.

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U2 - 10.1016/0254-0584(90)90102-G

DO - 10.1016/0254-0584(90)90102-G

M3 - Artículo

SN - 0254-0584

VL - 24

SP - 383

EP - 388

JO - Materials Chemistry and Physics

JF - Materials Chemistry and Physics

IS - 4

ER -

Lithium doped zinc oxide photoluminescence films prepared by spray pyrolysis

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