Adsorption Mechanism of Alkyl Ketones on Cation Supported by Layer Silicate. Link Formation of Hydroxyl Group

Jong Taik Kim; Jong Rack Sohn

Adsorption Mechanism of Alkyl Ketones on Cation Supported by Layer Silicate. Link Formation of Hydroxyl Group

Jong Taik Kim

Jong Rack Sohn

Vol. 17, No. 4, pp. 247-255, Aug. 1973

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Abstract

Li+, Na+, K+, Ca2+, Ni2+, Al3+, 과 F3+의 양이온을 포화시킨 Wyoning montmorillonite에 acetone, methyl-ethyl ketone. diethyl ketone을 가열용 i.r. gas cell 내에서 각각 다른 압력아래 흡착시켜 4000∼1200cm-1에서 나타났으며 이들은 양이온의 수산기 및 흡착수와 그리고 표면수산기와 수소결합을 일으키는 결과로 나타났다. OH 흡수 spectra의 강도는 양이온의 수산기의 resonance 이론을 뒷받침해 주었다. coordinate bond를 일으키는 경향은 계산한 C=O기의 산소의 formal charge의 크기와 잘 맞았다. The self supported film specimen of Wyoming montmorillonite as a layer silicate saturated by cations, Li+, Na+, K+, Ca2+, Ni2+, Al3+and Fe3+, were allowed to contact acetone, methyl-ethyl ketone and diethyl ketone within the heatable gas cell. The i.r. spectra between 4000~1200cm-1 at different pressures of adsorbates indicated bond formation through carbonyl oxygen. Two types of carbonyl bond shift with maxima at 1713 and 1690cm-1 are attributed as coordinate bond formation of carbonyl with either surface hydroxyl or cationic hydroxyl group. The intensity of the νOH was analyzed and resonance form of cationic hydroxyl was proposed as an adsorption site. The tendency to form coordinate bond was in good agreement with calculated formal charge of carbonyl oxygen in an increasing order, acetone < methyl-ethyl ketone < diethyl ketone. As an additional mechanism of adsorption, weak hydrogen bonding of methyl hydrogen with surface oxygen was observed.

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Cite this article

[IEEE Style]

J. T. Kim and J. R. Sohn, "Adsorption Mechanism of Alkyl Ketones on Cation Supported by Layer Silicate. Link Formation of Hydroxyl Group," Journal of the Korean Chemical Society, vol. 17, no. 4, pp. 247-255, 1973. DOI: .

[ACM Style]

Jong Taik Kim and Jong Rack Sohn. 1973. Adsorption Mechanism of Alkyl Ketones on Cation Supported by Layer Silicate. Link Formation of Hydroxyl Group. Journal of the Korean Chemical Society, 17, 4, (1973), 247-255. DOI: .

Adsorption Mechanism of Alkyl Ketones on Cation Supported by Layer Silicate. Link Formation of Hydroxyl Group

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