Add to ORKGBoron-doped amorphous graphite-like carbon (GLC) films have been prepared with different boron concentrations. Electrical transport measurements in the temperature range 1.3–300 K on the films shows a doping-induced metal–insulator (MI) transition. On the metallic side of the transition, the experimental data are interpreted in terms of weak localization and the effect of electron–electron interactions. Data on the insulator side of transition are analyzed in terms of hopping conduction. Critical behaviour is observed near the transition, with the resistivity obeying a power-law temperature dependence
We report the transport behavior of bilayer graphene grown by thermal chemical vapor deposition. The...
In this work, the influence of iodine incorporation on the electrical properties of amorphous conduc...
ABSTRACT: We report on the low-temperature electrical transport properties of large area boron and n...
Boron-doped amorphous graphite-like carbon (GLC) films have been prepared with different boron conce...
The amorphous conducting carbon films have been prepared at three different preparation temperatures...
The electrical transport properties of boron doped graphitelike amorphous carbon films have been stu...
Boron doped amorphous conducting carbon films show MI transition induced by doping. In this paper we...
In this work, the effect of iodine incorporation on the electrical conductivity, magnetic susceptibi...
The influence of disorder on the electrical properties (DC conductivity and magnetoresistance) of am...
There have been significant studies to induce superconductivity and increase transition temperatures...
In this work, we discuss the preparation of iodine and sulfur incorporated amorphous carbon (a-C) fi...
In this work, we discuss the preparation of iodine and sulfur incorporated amorphous carbon (a-C) fi...
Amorphous carbon films are prepared by plasma-assisted chemical vapor deposition. Resistivity of the...
The low temperature electronic transport of highly boron-doped nanocrystalline diamond films is stud...
We present the synthesis and properties of iodine incorporated amorphous carbon films. Optical studi...
We report the transport behavior of bilayer graphene grown by thermal chemical vapor deposition. The...
In this work, the influence of iodine incorporation on the electrical properties of amorphous conduc...
ABSTRACT: We report on the low-temperature electrical transport properties of large area boron and n...
Boron-doped amorphous graphite-like carbon (GLC) films have been prepared with different boron conce...
The amorphous conducting carbon films have been prepared at three different preparation temperatures...
The electrical transport properties of boron doped graphitelike amorphous carbon films have been stu...
Boron doped amorphous conducting carbon films show MI transition induced by doping. In this paper we...
In this work, the effect of iodine incorporation on the electrical conductivity, magnetic susceptibi...
The influence of disorder on the electrical properties (DC conductivity and magnetoresistance) of am...
There have been significant studies to induce superconductivity and increase transition temperatures...
In this work, we discuss the preparation of iodine and sulfur incorporated amorphous carbon (a-C) fi...
In this work, we discuss the preparation of iodine and sulfur incorporated amorphous carbon (a-C) fi...
Amorphous carbon films are prepared by plasma-assisted chemical vapor deposition. Resistivity of the...
The low temperature electronic transport of highly boron-doped nanocrystalline diamond films is stud...
We present the synthesis and properties of iodine incorporated amorphous carbon films. Optical studi...
We report the transport behavior of bilayer graphene grown by thermal chemical vapor deposition. The...
In this work, the influence of iodine incorporation on the electrical properties of amorphous conduc...
ABSTRACT: We report on the low-temperature electrical transport properties of large area boron and n...