Electronic structure and kinetic properties of tight-binding metals at high temperature

Insulating polyphenylquinoxaline (PPQ) was converted into an electrical conductor by pyrolysis at high temperature in nitrogen. Room temperature conductivity was measured as a function of pyrolytic conditions, and it was found that it strongly depends on the pyrolytic temperature and time. A maximum

The electronic structures of Pd and Pt epitaxiai monolayers on Re and Ru (000 1) surfaces are studied within a self-consistent semi-empirical scheme. To this purpose an s-d-electron tight-binding Hamiltonian is treated by the recursion method. The overlayer d bands are shifted to higher binding ener

Insulator-to-metal transition of polyimide films can be performed by pyrolysis at high temperature as proposed by the authors. The maximum conductivity of the polyimide pyrolyzed at 950°C for 0.5 h in a nitrogen atmosphere was measured to be 248 S/cm. The structure, electrical, and magnetic properti

The thermal expansion of the interlayer spacmg bnd the intensity ratio ~(004)/1(00?) of the diffraction lines of graphite-bromine residue compounds were measured at temperature5 between room temperature and 700°C by using a high temperature X-ray diffractometer. At about 330°C. both the c-spacing a