Add to ORKGAbstract ― Computational calculations of molecular orbital and electrochemical redox/oxidation potentials are of very importance to determine the compound properties. The energy levels of molecular orbital were calculated by the density function theory (DFT) with exchange correction functional of local density approximation (LSA) based on the Perdew-Wang (PWC) setting and cyclic voltammetry
The author would like to thank the Brazilian Agency Funding: CNPq, CAPES and Fundaçăo Araucária
A molecular theory is presented to describe chemically modified electrodes by redox polymers. The th...
The calculation of redox potentials involves large energetic terms arising from gas phase ionization...
Computational methods to predict and tune electrochemical redox potentials are important for the dev...
International audienceThis paper aims at enlightening the link between surface properties, conceptua...
We present a computational method to calculate the electronic states of a molecule in electrochemica...
A review of the limited literature concerned with theoretical ways to predict experimentally measure...
Reliable calculations of redox potentials could provide valuable insight into catalytic mechanisms o...
We present a theoretical approach which allows one to extract the orbital contribution to the conduc...
Discovering new materials for energy storage requires reliable and efficient protocols for predictin...
\u3cp\u3eFor 19 diketopyrrolopyrrole polymers, the highest occupied molecular orbital (HOMO) energie...
Suitability of single-reference density functional theory (DFT) methods for the calculation of redox...
A set of mathematical expressions to predict redox potentials and frontier orbital energy levels for...
CONSPECTUS: All-atom methods treat solute and solvent at the same level of electronic structure theo...
High-throughput computational screening (HTCS) is an effective tool to accelerate the discovery of a...
The author would like to thank the Brazilian Agency Funding: CNPq, CAPES and Fundaçăo Araucária
A molecular theory is presented to describe chemically modified electrodes by redox polymers. The th...
The calculation of redox potentials involves large energetic terms arising from gas phase ionization...
Computational methods to predict and tune electrochemical redox potentials are important for the dev...
International audienceThis paper aims at enlightening the link between surface properties, conceptua...
We present a computational method to calculate the electronic states of a molecule in electrochemica...
A review of the limited literature concerned with theoretical ways to predict experimentally measure...
Reliable calculations of redox potentials could provide valuable insight into catalytic mechanisms o...
We present a theoretical approach which allows one to extract the orbital contribution to the conduc...
Discovering new materials for energy storage requires reliable and efficient protocols for predictin...
\u3cp\u3eFor 19 diketopyrrolopyrrole polymers, the highest occupied molecular orbital (HOMO) energie...
Suitability of single-reference density functional theory (DFT) methods for the calculation of redox...
A set of mathematical expressions to predict redox potentials and frontier orbital energy levels for...
CONSPECTUS: All-atom methods treat solute and solvent at the same level of electronic structure theo...
High-throughput computational screening (HTCS) is an effective tool to accelerate the discovery of a...
The author would like to thank the Brazilian Agency Funding: CNPq, CAPES and Fundaçăo Araucária
A molecular theory is presented to describe chemically modified electrodes by redox polymers. The th...
The calculation of redox potentials involves large energetic terms arising from gas phase ionization...