Thermodynamic Equilibrium Compositions for a $NH_3-AlCl_3-H_2$ Vapor-Phase Reacting System and Synthesis of High-Purity AlN

$NH_3-AlCl_3-H_2$ 기상반응계의 열역학적 평형조성 및 고순도 AIN 합성

  • 현상훈 (연세대학교 요업공학과) ;
  • 김준학 (연세대학교 요업공학과)
  • Published : 1986.01.01

Abstract

The synthesis of high-purity AlN by a vapor-phase reaction was investigated using the $NH_3-AlCl_3-H_2$ reacting system. The theoretical yields of AlN were determined from th thermodynamic equilibrium composi-tions. It was shown that the yields above 90% could by obtained even in the range of relatively low temper-ature of 600-1200K. The reaction temperature and the initial amounts/ratios of the reacting gases showed significant effects on the yields but the total pressure did not. The experimental results showed that a high-purity AlN having a needle shape was the only product as a solid phase and its amount produced increased with the reaction temperature. While the degree of agglmera-tion of the synthesized AlN increased with the reaction temperature the size of each particle consisting of the agglomerates was independent of the temperature but grew from 0.09 to 0.115${\mu}{\textrm}{m}$ with the flow rate of NH3. These experimental results were compared with the theoretical aspects for the synthesis of a high-purity AlN.

Keywords

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