Add to ORKGIn this work, the effect of iodine incorporation on the electrical conductivity, magnetic susceptibility (\chi) and magnetoresistance (MR) of amorphous conducting carbon (a-C) films has been discussed. Variation in conductivity of a-C films depends on the sample preparation conditions and iodine concentration. Evidence of metal-insulator (M-I) transition as a function of pyrolysis temperature is observed for iodinated (a-C:I) samples. The temperature dependent magnetic susceptibility of a-C:I sample shows a Curie behavior at low temperatures. The positive magnetoresistance is observed for all the samples irrespective of the conduction regimes. This is accounted by the electron-electron interaction in the a-C:I system
Carbon based solar cell has attracted researcher attention as a replacement of silicon for use in so...
The electrical transport properties of boron doped graphitelike amorphous carbon films have been stu...
In this paper, we report the low-temp. elec. cond. of amorphous carbon films prepd. from an org. pre...
In this work, we discuss the preparation of iodine and sulfur incorporated amorphous carbon (a-C) fi...
We present the synthesis and properties of iodine incorporated amorphous carbon films. Optical studi...
In this work, the influence of iodine incorporation on the electrical properties of amorphous conduc...
In this work, we discuss the preparation of iodine and sulfur incorporated amorphous carbon (a-C) fi...
Iodine intercalated amorphous conducting C (a-C:I) films are prepd. by vapor phase pyrolysis of male...
In this work, we discuss the structural and transport properties of iodine intercalated amorphous co...
The influence of disorder on the electrical properties (DC conductivity and magnetoresistance) of am...
The amorphous conducting carbon films have been prepared at three different preparation temperatures...
Boron-doped amorphous graphite-like carbon (GLC) films have been prepared with different boron conce...
Boron-doped amorphous graphite-like carbon (GLC) films have been prepared with different boron conce...
Boron doped amorphous conducting carbon films show MI transition induced by doping. In this paper we...
Iodine and sulfur incorporated amorphous carbon (a-C) films are prepared by vapor phase pyrolysis of...
Carbon based solar cell has attracted researcher attention as a replacement of silicon for use in so...
The electrical transport properties of boron doped graphitelike amorphous carbon films have been stu...
In this paper, we report the low-temp. elec. cond. of amorphous carbon films prepd. from an org. pre...
In this work, we discuss the preparation of iodine and sulfur incorporated amorphous carbon (a-C) fi...
We present the synthesis and properties of iodine incorporated amorphous carbon films. Optical studi...
In this work, the influence of iodine incorporation on the electrical properties of amorphous conduc...
In this work, we discuss the preparation of iodine and sulfur incorporated amorphous carbon (a-C) fi...
Iodine intercalated amorphous conducting C (a-C:I) films are prepd. by vapor phase pyrolysis of male...
In this work, we discuss the structural and transport properties of iodine intercalated amorphous co...
The influence of disorder on the electrical properties (DC conductivity and magnetoresistance) of am...
The amorphous conducting carbon films have been prepared at three different preparation temperatures...
Boron-doped amorphous graphite-like carbon (GLC) films have been prepared with different boron conce...
Boron-doped amorphous graphite-like carbon (GLC) films have been prepared with different boron conce...
Boron doped amorphous conducting carbon films show MI transition induced by doping. In this paper we...
Iodine and sulfur incorporated amorphous carbon (a-C) films are prepared by vapor phase pyrolysis of...
Carbon based solar cell has attracted researcher attention as a replacement of silicon for use in so...
The electrical transport properties of boron doped graphitelike amorphous carbon films have been stu...
In this paper, we report the low-temp. elec. cond. of amorphous carbon films prepd. from an org. pre...