Synthesis of single-crystal CdS microbelts using a modified thermal evaporation method and their photoluminescence

Guozhen Shen; Jung Hee Cho; Jin Kyoung Yoo; Gyu Chul Yi; Cheol Jin Lee

doi:10.1021/jp044888f

Synthesis of single-crystal CdS microbelts using a modified thermal evaporation method and their photoluminescence

Guozhen Shen^*, Jung Hee Cho, Jin Kyoung Yoo, Gyu Chul Yi, Cheol Jin Lee

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

126 Citations (Scopus)

Abstract

Large-scale synthesis of single-crystal CdS microbelts was achieved by a modified thermal evaporation method, in which an adiabatic layer was used to provide abrupt temperature decrease and high gas concentration for the rnicrobelt growth. The synthesized CdS microbelts were usually several micrometers in width, 70 nm in thickness, and tens to several hundred micrometers in length. Studies found that the adiabatic layer has great influence on the formation of CdS microbelts. Room-temperature photoluminescence indicated the disappearance of the emission at 1.77 eV, the appearance of an emission at 2.07 eV, and also the enhancement of the emission band at 2.38 eV, whose position shifted toward the blue region compared with conventional narrow CdS nanobelts. A possible growth mechanism of the CdS microbelts was briefly discussed.

Original language	English
Pages (from-to)	9294-9298
Number of pages	5
Journal	Journal of Physical Chemistry B
Volume	109
Issue number	19
DOIs	https://doi.org/10.1021/jp044888f
Publication status	Published - 19 May 2005
Externally published	Yes

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title = "Synthesis of single-crystal CdS microbelts using a modified thermal evaporation method and their photoluminescence",

abstract = "Large-scale synthesis of single-crystal CdS microbelts was achieved by a modified thermal evaporation method, in which an adiabatic layer was used to provide abrupt temperature decrease and high gas concentration for the rnicrobelt growth. The synthesized CdS microbelts were usually several micrometers in width, 70 nm in thickness, and tens to several hundred micrometers in length. Studies found that the adiabatic layer has great influence on the formation of CdS microbelts. Room-temperature photoluminescence indicated the disappearance of the emission at 1.77 eV, the appearance of an emission at 2.07 eV, and also the enhancement of the emission band at 2.38 eV, whose position shifted toward the blue region compared with conventional narrow CdS nanobelts. A possible growth mechanism of the CdS microbelts was briefly discussed.",

author = "Guozhen Shen and Cho, {Jung Hee} and Yoo, {Jin Kyoung} and Yi, {Gyu Chul} and Lee, {Cheol Jin}",

year = "2005",

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doi = "10.1021/jp044888f",

language = "English",

volume = "109",

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journal = "Journal of Physical Chemistry B",

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T1 - Synthesis of single-crystal CdS microbelts using a modified thermal evaporation method and their photoluminescence

AU - Shen, Guozhen

AU - Cho, Jung Hee

AU - Yoo, Jin Kyoung

AU - Yi, Gyu Chul

AU - Lee, Cheol Jin

PY - 2005/5/19

Y1 - 2005/5/19

N2 - Large-scale synthesis of single-crystal CdS microbelts was achieved by a modified thermal evaporation method, in which an adiabatic layer was used to provide abrupt temperature decrease and high gas concentration for the rnicrobelt growth. The synthesized CdS microbelts were usually several micrometers in width, 70 nm in thickness, and tens to several hundred micrometers in length. Studies found that the adiabatic layer has great influence on the formation of CdS microbelts. Room-temperature photoluminescence indicated the disappearance of the emission at 1.77 eV, the appearance of an emission at 2.07 eV, and also the enhancement of the emission band at 2.38 eV, whose position shifted toward the blue region compared with conventional narrow CdS nanobelts. A possible growth mechanism of the CdS microbelts was briefly discussed.

AB - Large-scale synthesis of single-crystal CdS microbelts was achieved by a modified thermal evaporation method, in which an adiabatic layer was used to provide abrupt temperature decrease and high gas concentration for the rnicrobelt growth. The synthesized CdS microbelts were usually several micrometers in width, 70 nm in thickness, and tens to several hundred micrometers in length. Studies found that the adiabatic layer has great influence on the formation of CdS microbelts. Room-temperature photoluminescence indicated the disappearance of the emission at 1.77 eV, the appearance of an emission at 2.07 eV, and also the enhancement of the emission band at 2.38 eV, whose position shifted toward the blue region compared with conventional narrow CdS nanobelts. A possible growth mechanism of the CdS microbelts was briefly discussed.

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DO - 10.1021/jp044888f

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Synthesis of single-crystal CdS microbelts using a modified thermal evaporation method and their photoluminescence

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