[HTML][HTML] Density functional theory and machine learning for electrochemical square-scheme prediction: an application to quinone-type molecules relevant to redox …
Proton–electron transfer (PET) reactions are rather common in chemistry and crucial in
energy storage applications. How electrons and protons are involved or which mechanism …
energy storage applications. How electrons and protons are involved or which mechanism …
[HTML][HTML] Density functional theory and machine learning for electrochemical square-scheme prediction: an application to quinone-type molecules relevant to redox …
A Hashemi, R Khakpour, A Mahdian, M Busch… - Digital …, 2023 - ncbi.nlm.nih.gov
Proton–electron transfer (PET) reactions are rather common in chemistry and crucial in
energy storage applications. How electrons and protons are involved or which mechanism …
energy storage applications. How electrons and protons are involved or which mechanism …
Density functional theory and machine learning for electrochemical square-scheme prediction: an application to quinone-type molecules relevant to redox flow …
A Hashemi, R Khakpour, A Mahdian, M Busch… - Digital …, 2023 - research.aalto.fi
Proton-electron transfer (PET) reactions are rather common in chemistry and crucial in
energy storage applications. How electrons and protons are involved or which mechanism …
energy storage applications. How electrons and protons are involved or which mechanism …
Density Functional Theory and Machine Learning for Electrochemical Square-Scheme Prediction: An Application to Quinone-type Molecules Relevant to Redox Flow …
A Hashemi, R Khakpour, A Mahdian, M Busch, P Peljo… - 2023 - chemrxiv.org
Proton-electron transfer (PET) reactions are rather common in chemistry and crucial in
energy storage applications. How electrons and protons are involved or which mechanism …
energy storage applications. How electrons and protons are involved or which mechanism …
Density functional theory and machine learning for electrochemical square-scheme prediction: an application to quinone-type molecules relevant to redox flow …
A Hashemi, R Khakpour, A Mahdian, M Busch… - Digital …, 2023 - europepmc.org
Proton–electron transfer (PET) reactions are rather common in chemistry and crucial in
energy storage applications. How electrons and protons are involved or which mechanism …
energy storage applications. How electrons and protons are involved or which mechanism …
Density functional theory and machine learning for electrochemical square-scheme prediction: an application to quinone-type molecules relevant to redox flow …
A Hashemi, R Khakpour, A Mahdian, M Busch, P Peljo… - 2023 - aaltodoc.aalto.fi
Proton-electron transfer (PET) reactions are rather common in chemistry and crucial in
energy storage applications. How electrons and protons are involved or which mechanism …
energy storage applications. How electrons and protons are involved or which mechanism …
Density functional theory and machine learning for electrochemical square-scheme prediction: an application to quinone-type molecules relevant to redox flow …
A Hashemi, R Khakpour, A Mahdian… - Digital …, 2023 - pubmed.ncbi.nlm.nih.gov
Proton-electron transfer (PET) reactions are rather common in chemistry and crucial in
energy storage applications. How electrons and protons are involved or which mechanism …
energy storage applications. How electrons and protons are involved or which mechanism …
[引用][C] Density functional theory and machine learning for electrochemical square-scheme prediction: an application to quinone-type molecules relevant to redox flow …
A Hashemi, R Khakpour, A Mahdian, M Busch… - Digital …, 2023 - diva-portal.org
Density Functional Theory and Machine Learning for Electrochemical Square-Scheme Prediction: An Application to Quinone-type Molecules Relevant to Redox Flow …
A Hashemi, R Khakpour, A Mahdian, M Busch, P Peljo… - 2023 - chemrxiv.org
Proton-electron transfer (PET) reactions are rather common in chemistry and crucial in
energy storage applications. How electrons and protons are involved or which mechanism …
energy storage applications. How electrons and protons are involved or which mechanism …