NFDI4DS | UHH-SEMS - Publication Details

Paige Brocidiacono

ORCID: 0000-0003-0302-0069

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About

Contact & Profiles

A5094116394

Research Areas

Atmospheric and Environmental Gas Dynamics
Carbon Dioxide Capture Technologies
CO2 Reduction Techniques and Catalysts
Reservoir Engineering and Simulation Methods
Petroleum Processing and Analysis
Hydrocarbon exploration and reservoir analysis
Microbial bioremediation and biosurfactants
Microbial metabolism and enzyme function
Metal-Catalyzed Oxygenation Mechanisms
Catalytic Processes in Materials Science

Genetic tools for methanotrophs to manipulate particulate methane monooxygenase

OPENALEX - Publications

Paul Reginato Calvin A. Henard Mary E. Lidstrom Jeremy D. Semrau Jessica M. J. Swanson and 7 more

10.21428/23398f7c.8aa9289d article EN cc-by 2024-03-11

Cell-free methane oxidation without reductant input

OPENALEX - Publications

Paul Reginato Chris Eiben James Weltz Paige Brocidiacono

ContextCH 4 emissions account for ~30% of global warming [1], and natural sources may increase [2].Technologies oxidizing atmospheric CH , area emissions, unavoidable point could substantially mitigate climate change.While above ~44,000 ppm can be flared, lower concentrations require catalyzed oxidation.However, ~75% pollution is (2 ppm) or below 1000 that

10.21428/23398f7c.e4f82ebb article EN cc-by 2024-04-06

Methods to express and screen soluble methane monooxygenase

OPENALEX - Publications

Paul Reginato Calvin A. Henard Mary E. Lidstrom Jeremy D. Semrau Jessica M. J. Swanson and 6 more

10.21428/23398f7c.6d088423 article EN cc-by 2024-03-11

Design and modeling of dilute methane oxidation bioreactors to guide bioengineering

OPENALEX - Publications

Paul Reginato Mary E. Lidstrom Jeremy D. Semrau Jessica M. J. Swanson Lisa Y. Stein and 5 more

10.21428/23398f7c.33a8fcaa article EN cc-by 2024-04-06

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