R. Fromknecht et al., LATTICE LOCATION AND ELECTRICAL-CONDUCTIVITY IN ION-IMPLANTED TIO2 SINGLE-CRYSTALS, Nuclear instruments & methods in physics research. Section B, Beam interactions with materials and atoms, 120(1-4), 1996, pp. 252-256
Single crystals of TiO2 (rutile) were implanted at room temperature wi
th Ar, Sn and W ions applying fluences of 10(15)/cm(2) to 10(16)/cm(2)
at 300 keV. The lattice location, together with ion range and damage
distribution was measured with Rutherford Backscattering and Channelin
g (RBS-C). The conductivity sigma, was measured as a function of tempe
rature. The implanted Sn and W atoms were entirely substitutional on T
i sites in the applied fluence region, where the radiation damage did
not yet reach the random level. A large sigma increase was observed fo
r all implants at displacement per atom values (dpa) below 1. Above dp
a = 1, sigma reveals a saturation value of 0.3 Omega(-1) cm(-1) for Ar
implants, while for W and Sn implants a further increase of sigma up
to 30 Omega(-1) cm(-1) was measured. Between 70 K and 293 K In sigma w
as proportional to T--1/2, (Ar,W) and T--1/4 (Sn), indicating that the
transport mechanism is due to variable range hopping.