We here use first-principles calculations to investigate the phase stability of the hypothetical laminated material V2Ga2C and the related alloy (Mo1-xVx)2Ga2C, the latter for a potential parent material for synthesis of (Mo1-xVx)2C, a new two-dimensional material in the family of so called MXenes. We predict that V2Ga2C is thermodynamically stable with respect to all identified competing phases in the ternary V-Ga-C phase diagram. We further calculate the stability of ordered and disordered configurations of Mo and V in (Mo1-xVx)2Ga2C and predict that ordered (Mo1-xVx)2Ga2C for x ≤ 0.25 is stable, with an order-disorder transition temperature of ∼1000 K. Furthermore, (Mo1-xVx)2Ga2C for x = 0.5 and x ≥ 0.75 is suggested to be stable, but on...
We present theoretical prediction and experimental evidence of a new MAX phase alloy, Mo2ScAlC2, wit...
We present theoretical prediction and experimental evidence of a new MAX phase alloy, Mo2ScAlC2, wit...
We present theoretical prediction and experimental evidence of a new MAX phase alloy, Mo2ScAlC2, wit...
We here use first-principles calculations to investigate the phase stability of the hypothetical lam...
We here use first-principles calculations to investigate the phase stability of the hypothetical lam...
We here use first-principles calculations to investigate the phase stability of the hypothetical lam...
The MAX phase family is a set of nanolaminated, hexagonal materials typically comprised of three ele...
In this thesis, first-principles calculations within density functional theory are presented, with a...
In this thesis, first-principles calculations within density functional theory are presented, with a...
Following our recent discovery of a new nanolaminated carbide, Mo2Ga2C, we herein present a detailed...
Following our recent discovery of a new nanolaminated carbide, Mo2Ga2C, we herein present a detailed...
Since the advent of theoretical materials science some 60 years ago, there has been a drive to predi...
We report on the phase stability of chemically ordered and disordered quaternary MAX phases - TiMAlC...
We report on the phase stability of chemically ordered and disordered quaternary MAX phases - TiMAlC...
We report on the phase stability of chemically ordered and disordered quaternary MAX phases - TiMAlC...
We present theoretical prediction and experimental evidence of a new MAX phase alloy, Mo2ScAlC2, wit...
We present theoretical prediction and experimental evidence of a new MAX phase alloy, Mo2ScAlC2, wit...
We present theoretical prediction and experimental evidence of a new MAX phase alloy, Mo2ScAlC2, wit...
We here use first-principles calculations to investigate the phase stability of the hypothetical lam...
We here use first-principles calculations to investigate the phase stability of the hypothetical lam...
We here use first-principles calculations to investigate the phase stability of the hypothetical lam...
The MAX phase family is a set of nanolaminated, hexagonal materials typically comprised of three ele...
In this thesis, first-principles calculations within density functional theory are presented, with a...
In this thesis, first-principles calculations within density functional theory are presented, with a...
Following our recent discovery of a new nanolaminated carbide, Mo2Ga2C, we herein present a detailed...
Following our recent discovery of a new nanolaminated carbide, Mo2Ga2C, we herein present a detailed...
Since the advent of theoretical materials science some 60 years ago, there has been a drive to predi...
We report on the phase stability of chemically ordered and disordered quaternary MAX phases - TiMAlC...
We report on the phase stability of chemically ordered and disordered quaternary MAX phases - TiMAlC...
We report on the phase stability of chemically ordered and disordered quaternary MAX phases - TiMAlC...
We present theoretical prediction and experimental evidence of a new MAX phase alloy, Mo2ScAlC2, wit...
We present theoretical prediction and experimental evidence of a new MAX phase alloy, Mo2ScAlC2, wit...
We present theoretical prediction and experimental evidence of a new MAX phase alloy, Mo2ScAlC2, wit...