コンテンツメニュー

Narrowing of X-ray diffraction peak of clay-organic hybrid films by swelling and drying procedure

Clay Science Volume 19 Issue 4 Page 79-83
published_at 2015
19_KJ00010256024.pdf
[fulltext] 512 KB
Title
Narrowing of X-ray diffraction peak of clay-organic hybrid films by swelling and drying procedure
Abstract
We have found that X-ray diffraction peaks of clay-organic hybrid films were narrowed after swelling followed by removing of solvent. We fabricated hybrid films consisting of natural montmorillonite (Mont), synthetic saponite (SSA) or synthetic stevensite (SST) and a cationic organic molecule. Full width at half maximum (FWHM) of 001 reflection of as-prepared Mont hybrid was 1.58 2θ degree whereas that after swelling and solvent removing procedure was 0.84 2θ degree. This decreasing of FWHM indicated that the improvement of packing order of clay particles in clay-organic hybrid was occurred during swelling and solvent removing procedure. Similar decreasing of FWHM was also found in hybrids consisting of SSA or SST. Improvement of packing order of hybrid was found to accompany suppression of light scattering of hybrid at the same time.
Creators Suzuki Yasutaka
Affiliate Master Yamaguchi University
[kakenhi]15501 grid.268397.1
Creators Himeno Daisuke
Creators Tominaga Makoto
Creators Tani Seiji
Affiliate Master Yamaguchi University
[kakenhi]15501 grid.268397.1
Creators Nozaki Koji
Affiliate Master Yamaguchi University
[kakenhi]15501 grid.268397.1
Creators Kawamata Jun
Affiliate Master Yamaguchi University
[kakenhi]15501 grid.268397.1
Source Identifiers [EISSN] 2186-3555 [PISSN] 0009-8574
Creator Keywords
Clay-organic hybrid Smectite Swelling
Languages eng
Resource Type journal article
Publishers The Clay Science Society of Japan
Date Issued 2015
Rights
© 2015 The Clay Science Society of Japan()
File Version Version of Record
Access Rights open access
Relations
[isIdenticalTo] https://doi.org/10.11362/jcssjclayscience.19.4_79
Funding Refs
Japan Society for the Promotion of Science [crossref_funder]https://doi.org/10.13039/501100001691
Award Molecular manipulation utilizing radiation pressure Research Project 15K13676