Quantum chemistry study on reaction paths of GaN/AlN grown by MOCVD

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School of Energy and Power Engineering, Jiangsu University, Zhenjiang, China ^{[1
]}

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]}

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]}

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Rengong Jingti Xuebao | / 8卷 / 2237-2244期

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Gallium nitride - Energy barriers - III-V semiconductors - Aluminum nitride - Pyrolysis - Quantum chemistry;

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摘要：

The reaction paths of GaN/AlN thin film grown by MOCVD were calculated by quantum chemical calculations with density functional theory. In particular, the temperature effect on the reaction paths between the group-III metalorganic source, TMX and group-V source, NH3 was investigated. The results show that: when T≤473.15 K, TMX and NH3 become ligand adduct TMX:NH3 spontaneously; when T≥573.15 K, TMX:NH3 tends to decompose back into TMX and NH3; when 473.15 K≤T≤573.15 K, the adduct reaction is in equilibrium. When temperature increases, the probability of the formation of amide DMX:NH2 increases. The pyrolysis of TMX and MMX require high temperatures for activation, while DMX into MMX is easier to occur. When T>873.15 K, DMGa into MMGa occurs spontaneously; when T>1273.15 K, DMAl into MMAl occurs spontaneously. With radical CH3 participation, the energy barrier for TMX→DMX (X=Ga, Al) is in between 30-40 kcal/mol, only half of that in direct pyrolysis. With radical H participation, the energy barrier for TMX→DMX (X=Ga, Al) is further reduced, only about 16-20 kcal/mol. Apparently the participation of H radicals will promote the TMX pyrolysis greatly. ©, 2015, Chinese Ceramic Society. All right reserved.

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