Christopher Muhich (standing), and postdoctoral researcher Yu Yan examine a computer simulation of trifluoroacetate interacting with a palladium oxide surface.

Muhich Research Group

Using computational chemistry to design materials to facilitate renewable energy generation with a focus on reduction and oxidation reactions.

Our group aims to understand and design materials which facilitate renewable energy and fuel generation and storage and environmental remediation applications, with a focus on reduction and oxidation reactions.

Through computational chemistry methods we develop fundamental understandings of how materials interaction with chemical reactions, specifically what materials aspects promote desired reactions characteristics (i.e. rates and energetic) and which suppress them. Through this understanding we engineer new material which enhance desirable behaviors while minimizing undesirable ones. Our experiments are used to validate the computational findings and lead us to new discoveries.

Portrait of Christopher Muhich

Christopher Muhich

Associate Professor

School for Engineering of Matter, Transport and Energy

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Illustrations

Ceria Expansion

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Metal Catalysis

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TOC

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Cation Migration

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Double Doped Gafab

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Double Doped Gafab

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TOC

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Announcements

Muhich Lab part of team awarded DOE project on sustainable steal production

Muhich Lab awarded DOE project on Perovskite Design for solar thermal H2 production

Muhich Lab part of team awarded NIST project on sustainable polymer education

Muhich Lab awarded a NAWI project on PFAS removal

Muhich Lab awarded a NASA NIAC project on generating O2 on Mars

Muhich Lab awarded a DOE SETO project on lowering the temperature of solar thermochemical CO2 splitting

Muhich Lab part of the newly awarded NSF STEPS Center, an STC, for studying Phosphorus

Muhich Lab awarded DOE SETO project in conjunction with ASU Lightworks on energy storage and H2 generation

Muhich Lab awarded NIH Superfund site project in conjunction with Harvard and Yale to study the effects of heavy metals on cognitive aging and the associated remediation

Muhich Lab awarded DARPA project to study high temperature oxygen exchange materials

Muhich Lab awarded NEWT ERC project to study single atom catalysts

Muhich Lab awarded ACS PRF grant to study H2 purification.

Muhich lab awarded DOE’s ARPA-E project in collaboration with Michigan State University to study long term energy storage.