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Problem Statement Repository: Atmospheric Methane Research

Methane Removal Approach

Atmospheric Methane Research problem statements are shared to build community and knowledge around key challenges to accelerate progress.

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Design and modeling of dilute methane oxidation bioreactors to guide bioengineering


Submitted by

Paul Reginato, Mary Lidstrom, Jeremy Semrau, Jessica Swanson, Lisa Stein, Wenyu Gu, Mark Hansen, Paige Brocidiacono, Ariana Caiati, and Erin Wilson

Cell-free Methane Oxidation Without Reductant Input


Submitted by

Paul Reginato, Chris Eiben, James Weltz, Paige Brocidiacono

Discover or Engineer Efficient Soluble Methane Monooxygenase


Submitted by

Paul Reginato, Lisa Stein, Mary Lidstrom, Jeremy Semrau, Jessica Swanson, Wenyu Gu, Noah Helman, James Weltz, Mark Hansen, Paige Brocidiacono, Ariana Caiati, Erin Wilson

Evaluation of several unexplored atmospheric methane removal mechanisms


Submitted by

Maarten van Herpen (Acacia Impact Innovation BV)

High-resolution atmospheric chemistry modeling to maximize the effectiveness and minimize unintended consequences of atmospheric methane oxidation enhancement methods


Submitted by

Hannah Horowitz (University of Illinois Urbana-Champaign)

Liquid capture of atmospheric methane: rethinking an abandoned technology


Submitted by

Yat Li (University of California Santa Cruz)

Catalyst-Coated Fibers for Room-Temperature Direct Conversion of Methane from Air to Methanol


Submitted by

Request to remain anonymous

Fundamental Investigations of Gas–Surface Interactions Towards Adsorbent Design Rules to Enable Atmospheric Capture Technologies


Submitted by

C. Michael McGuirk (Colorado School of Mines)

Single-atom solid-oxide electrolyzers for efficient removal of atmospheric methane


Submitted by

Meenesh Singh (University of Illinois Chicago)

Atmospheric methane removal using engineered multimetallic catalysts


Submitted by

Matteo Cargnello (Stanford University)

Establishing an efficient hollow fiber membrane unit for atmospheric methane removal


Submitted by

Mari Karoliina Winkler (University of Washington)

Stimulation of microbial atmospheric methane oxidation with low-concentration methane generated in situ using organic wastes


Submitted by

Sukhwan Yoon (Korea Advanced Institute of Science and Technology

Optimization of Methanotrophs and Solid-State Bioreactors for Atmospheric Methane Removal


Submitted by

Lisa Stein (University of Alberta)

Improving Quantum Yield for Photolytic Reactors


Submitted by

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