Atomarer Wasserstoff als Spinsonde in thermisch und mechanisch aktivierten Materialien

Selected results: Atomic hydrogen H could be stabilized at T >(=) 293K in specially prepared fluoride and oxide compounds of aluminium: {AlF3:OH} and {AlOOHx}. The formation of atomic hydrogen was accomplished using irradiation including rays, X rays and UVradiation, and even sunlight, that is those wavelengths in the region of <(=) 254nm. The hyperfine coupling constant of H @AlF3 could be precisely determined by using H @MeT8 as a standard to calibrate the B0 field. In the samples mentioned above H acts a spin probe in two ways: (i) that it can be trapped in cages and stabilized with Pauli repulsion indicates sensitively and unambiguously that there are local host nano-cages present in the matrices and, moreover, (ii) that it acts as a spin probe for determining the matrix state of order with its spin dynamics as well as with the kinetic parameters of detrapping.