论文信息 - Calorimetric studies of the heat capacity and relaxation of amorphous Si prepared by electron beam evaporation

Calorimetric studies of the heat capacity and relaxation of amorphous Si prepared by electron beam evaporation

The heat capacity of a‐Si thin film prepared by electron beam evaporation method was measured from 360 to 820 K by a differential scanning calorimeter. For the as‐prepared a‐Si specimen, two novel irreversible endothermic processes and one irreversible broad exothermic reaction were found. The origins of the endothermic reactions were not known. It is suggested that they may be caused by a change in the number and distribution of voids that occurs at approximately 465 K and the creation of dangling bonds at the higher temperature regime (≳620 K). The exothermic reaction is attributed to heat release during structural relaxation. When measuring the heat capacity of a‐Si, Ca‐Sip, these irreversible reactions were first eliminated by annealing the specimens at high temperatures. The heat capacity of crystalline Si, Cc‐Sip, was also measured and the difference, ΔCSip=Ca‐Sip −Cc‐Sip, was used to evaluate the thermodynamic melting temperature of the a‐Si, Tal, which is determined to be 1400 K.

[1] D. C. Ginnings,et al. Heat Capacity Standards for the Range 14 to 1200°K. , 1953 .

[2] David Turnbull,et al. Calorimetric studies of crystallization and relaxation of amorphous Si and Ge prepared by ion implantation , 1985 .

[3] S. Poon,et al. Generation of dangling bonds by high temperature annealing and hopping conduction in amorphous silicon films , 1980 .

[4] Doorn,et al. Calorimetric evidence for structural relaxation in amorphous silicon. , 1989, Physical review letters.

[5] D. Turnbull,et al. The heat capacity of Ni40Pd40P20 in the liquid, glass and crystallized states , 1987 .

[6] D. Turnbull,et al. Specific Heat and Heat of Crystallization of Amorphous Germanium , 1969 .

[7] S. C. Moss,et al. Evidence of Voids Within the As-Deposited Structure of Glassy Silicon , 1969 .

[8] Lawrence H. Bennett,et al. Binary alloy phase diagrams , 1986 .

[9] P. D. Maycock,et al. Thermal Conductivity of Silicon from 300 to 1400°K , 1963 .

[10] David Turnbull,et al. Heat of crystallization and melting point of amorphous silicon , 1983 .