Surface decomposition mechanism of Ti(OC3H7)(4) on a platinum surface

Cho SI.; Chung CH.; Moon SH.

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Surface decomposition mechanism of Ti(OC3H7)(4) on a platinum surface

机译：铂表面Ti（OC3H7）（4）的表面分解机理

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The decomposition behavior of titanium tetraisopropoxide TTIP Ti(OC3H7)(4) on a platinum surface has been studied using the thermal desorption technique. TTIP is dissociated on platinum below 230 K so that the platinum surface is covered with isopropoxy species and hydrogen originating from TTIP. The isopropoxy species adsorbed on the platinum surface are decomposed to acetone at 230 K. Two forms of surface hydrogen exist: molecular and atomic. Molecular hydrogen is desorbed at 230 K and atomic hydrogen is desorbed after recombination at 440 K. At higher dosages. TTIP is not completely dissociated, but some of isopropoxy ligands are still bound to titanium, even at 300 K. These intact ligands of TTIP produce acetone, isopropanol and propylene at temperatures between 300 and 500 K by disproportionation among themselves or by simple decomposition of the Ti-O bond in TTIP. (C) 2002 Elsevier Science B.V All rights reserved. References: 21

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《Thin Solid Films: An International Journal on the Science and Technology of Thin and Thick Films》 |2002年第1期|98-104|共7页
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Cho SI.; Chung CH.; Moon SH.;
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中图分类工程材料学;
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Surface decomposition mechanism of Ti(OC3H7)(4) on a platinum surface

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