In the present work, we analyzed the multiferroic material copper
chloride in its anhydrous (CuCl2) and dihydrated (CuCl2 center dot
2H(2)O) forms, monitoring its thermal behavior by Raman scattering
spectroscopy and thermal analysis. The vibrational modes characteristic
of the Raman spectrum at room temperature of the two phases are
discussed. It was possible to confirm the transition from the
orthorhombic phase of the copper chloride dihydrate to the monoclinic
phase of copper chloride anhydrous by means of these two techniques. An
analysis of the thermal behavior of the vibrational modes obtained by
Raman spectroscopy allows us to infer the structural changes between the
two phases.
%0 Journal Article
%1 WOS:000451494100001
%A Medeiros, F E O
%A Araujo, B S
%A Ayala, A P
%C RADARWEG 29, 1043 NX AMSTERDAM, NETHERLANDS
%D 2018
%I ELSEVIER
%J VIBRATIONAL SPECTROSCOPY
%K Dehydration; Multiferroic; Raman Thermal analysis} chloride; spectroscopy; {Copper
%P 1-6
%R 10.1016/j.vibspec.2018.08.006
%T Raman spectroscopy investigation of the thermal stability of the
multiferroic CuCl2 and its hydrated form
%V 99
%X In the present work, we analyzed the multiferroic material copper
chloride in its anhydrous (CuCl2) and dihydrated (CuCl2 center dot
2H(2)O) forms, monitoring its thermal behavior by Raman scattering
spectroscopy and thermal analysis. The vibrational modes characteristic
of the Raman spectrum at room temperature of the two phases are
discussed. It was possible to confirm the transition from the
orthorhombic phase of the copper chloride dihydrate to the monoclinic
phase of copper chloride anhydrous by means of these two techniques. An
analysis of the thermal behavior of the vibrational modes obtained by
Raman spectroscopy allows us to infer the structural changes between the
two phases.
@article{WOS:000451494100001,
abstract = {In the present work, we analyzed the multiferroic material copper
chloride in its anhydrous (CuCl2) and dihydrated (CuCl2 center dot
2H(2)O) forms, monitoring its thermal behavior by Raman scattering
spectroscopy and thermal analysis. The vibrational modes characteristic
of the Raman spectrum at room temperature of the two phases are
discussed. It was possible to confirm the transition from the
orthorhombic phase of the copper chloride dihydrate to the monoclinic
phase of copper chloride anhydrous by means of these two techniques. An
analysis of the thermal behavior of the vibrational modes obtained by
Raman spectroscopy allows us to infer the structural changes between the
two phases.},
added-at = {2022-05-23T20:00:14.000+0200},
address = {RADARWEG 29, 1043 NX AMSTERDAM, NETHERLANDS},
author = {Medeiros, F E O and Araujo, B S and Ayala, A P},
biburl = {https://www.bibsonomy.org/bibtex/291be2e4bb10b4fe6fe78ec2c13a1c685/ppgfis_ufc_br},
doi = {10.1016/j.vibspec.2018.08.006},
interhash = {e3b8e158f39de62f1df4601d09e7fcf9},
intrahash = {91be2e4bb10b4fe6fe78ec2c13a1c685},
issn = {0924-2031},
journal = {VIBRATIONAL SPECTROSCOPY},
keywords = {Dehydration; Multiferroic; Raman Thermal analysis} chloride; spectroscopy; {Copper},
pages = {1-6},
publisher = {ELSEVIER},
pubstate = {published},
timestamp = {2022-05-23T20:00:14.000+0200},
title = {Raman spectroscopy investigation of the thermal stability of the
multiferroic CuCl2 and its hydrated form},
tppubtype = {article},
volume = 99,
year = 2018
}