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Rajeev Ranjan Roy

3PUBLICATIONS
2CO-AUTHORS
Photonics, optoelectronics and optical communicationsColloid and surface chemistryComputational chemistry
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Publications (3)

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|Mar 27, 2026
Fundamental Electrostatics Explains Why Ferredoxin- and HiPIP-Type Proteins Favor Different Redox Transitions in [4Fe-4S]-Cys<sub>4</sub> Clusters.

Rajeev Ranjan Roy, Maxim Janzen, G Matthias Ullmann

|Dec 29, 2025
Protein-Based Determination of Model Redox Potentials for the High-Potential and Low-Potential Redox Transition of [4Fe-4S]-Cys<sub>4</sub> Clusters Using Continuum Electrostatics.

Rajeev Ranjan Roy, Maxim Janzen, G Matthias Ullmann

|Nov 17, 2023
Virtual Model Compound Approach for Calculating Redox Potentials of [Fe<sub>2</sub>S<sub>2</sub>]-Cys<sub>4</sub> Centers in Proteins - Structure Quality Matters.

Rajeev Ranjan Roy, G Matthias Ullmann

Pageof 1

Frequent Collaborators

3 joint publications

G Matthias Ullmann

2 joint publications

Maxim Janzen

Frequent Collaborators

3 joint publications

G Matthias Ullmann

2 joint publications

Maxim Janzen

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