cris.boxmetadata.label.title
Synthesis of SnO <inf>2</inf> quantum dots by chemical precipitation assisted by ultrasound
cris.boxmetadata.label.dateissued
21 browse.startsWith.months.december 2018
cris.boxmetadata.label.accesslevel
open access
cris.boxmetadata.label.resourcetype
conference paper
cris.boxmetadata.label.authors
Alvarado P.
Acosta D.
GOMEZ LEON, MONICA MARCELA
SOLIS VELIZ, JOSE LUIS
cris.boxmetadata.label.publisher
Institute of Physics Publishing
cris.boxmetadata.label.abstract
SnO 2 quantum dots were successfully prepared via chemical precipitation assisted by ultrasound. X-ray diffraction analysis confirmed the rutile tetragonal structure of SnO 2 QDs with a crystallite size of 1.4 nm. The SEM micrographs of the obtained powder exhibited that the SnO 2 QDs are agglomerated particles of around 10 nm, while TEM images confirmed that the crystallite size are similar to the measured from XRD. The band-gap energy of the SnO 2 QDs measured from the UV-Vis reflectance spectrum of the SnO 2 QDs was 4.3 eV, displaying a significantly blue-shifting attributed to quantum confinement.
cris.boxmetadata.label.volume
1143
cris.boxmetadata.label.issue
1
cris.boxmetadata.label.language
English
cris.boxmetadata.label.ocdeknowledgeArea
Nano-materiales
Electroquímica
cris.boxmetadata.label.doi
cris.boxmetadata.label.scopusidentifier
2-s2.0-85059450860
cris.boxmetadata.label.containerissn
17426588
cris.boxmetadata.label.conference
Journal of Physics: Conference Series
cris.boxmetadata.label.sponsor
The authors wish to thank the General Research Institute of the National University of Engineering (IGI-UNI) for a financial support.
peru-layout.shadow-copies
Directorio de Producción Científica
Scopus