MISC

2001年12月

Effect of additive ZrO2 on spinodal phase separation and pore distribution of borosilicate glasses

JOURNAL OF PHYSICAL CHEMISTRY B
  • WF Du
  • ,
  • K Kuraoka
  • ,
  • T Akai
  • ,
  • T Yazawa

105
48
開始ページ
11949
終了ページ
11954
記述言語
英語
掲載種別
DOI
10.1021/jp0111970
出版者・発行元
AMER CHEMICAL SOC

Sodium borosilicate porous glasses arising from spinodal phase separation are promising functional materials for separation membranes, enzyme and catalyst supports, and photonic materials. The present paper studied the effect of the additive of ZrO2 on the spinodal phase separation and pore distribution of the sodium borosilicate glasses using B-11 nuclear magnetic resonance spectrum, Si-29 nuclear magnetic resonance spectrum, mercury measurement, and nitrogen adsorption techniques. The experimental results showed that ZrO2 inhibited both the initiation process in early stage and the coarsening process in later stage of the spinodal phase separation. The pore volume was found to decrease slightly with the addition of ZrO2 at the beginning. However, when ZrO2 content > 7 mass%, the pore volume decreases dramatically with further addition of ZrO2. 65% of the pore volume in the sample without addition of ZrO2 will be lost when the addition amount of ZrO2 increases from 0 to 10 mass%. The inhibition effect on the pore volume is due to the structural change of boron network by the introduction of ZrO2. The oxygen defects, such as oxygen vacancy, which initiates the spinodal phase separation, are reduced during the transformation process from four-coordinated boron to three-coordinated boron by the introduction of ZrO2. The growth of the pore size of the sample, which is controlled by the dynamic process of coarsening in the later stage of the spinodal phase separation, is also inhibited by the introduction of ZrO2. With the addition of zirconia, the three-coordinated boron with stronger bond energy increases. This may reduce the movement of the oxygen-contained boron groups during mass transfer of the coarsening process of the spinodal phase separation, and consequently inhibit the growth of the pore size.

リンク情報
DOI
https://doi.org/10.1021/jp0111970
CiNii Articles
http://ci.nii.ac.jp/naid/80012730558
Web of Science
https://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcAuth=JSTA_CEL&SrcApp=J_Gate_JST&DestLinkType=FullRecord&KeyUT=WOS:000172600100006&DestApp=WOS_CPL
ID情報
  • DOI : 10.1021/jp0111970
  • ISSN : 1089-5647
  • CiNii Articles ID : 80012730558
  • identifiers.cinii_nr_id : 9000239248799
  • Web of Science ID : WOS:000172600100006

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