1. Laboratory aging of a dual function material (DFM) for reactive CO₂ capture: Integrated direct air capture (DAC) under various ambient conditions and in situ catalytic conversion to renewable methane Abdallah, Monica 2024 Theses Environmental engineeringCarbon dioxide mitigationCarbon dioxide--Absorption and adsorptionAluminum oxideMethanation
2. Graphene Aerogel Epoxy Sphere used as Ultra-Lightweight Proppants Ding, Jiasheng 2023 Theses Petroleum engineeringMaterials scienceHydraulic fracturingGrapheneColloidsCarbon dioxide mitigation
3. Reducing the Production Cost of Hydrogen from Polymer Electrolyte Membrane Electrolyzers through Dynamic Current Density Operation Ginsberg, Michael J. 2023 Theses Power resourcesElectrical engineeringChemical engineeringHydrogenSeawaterGlobal warmingCarbon dioxide mitigationPolyelectrolytesWater--Electrolysis
4. Development of Nanoscale Hybrid Material-Based Electrolytes for Energy Storage and Tandem CO₂ Capture and Conversion Hamilton, Sara 2022 Theses Environmental engineeringCarbon dioxide mitigationNanoscienceNanoparticlesElectrolytesEnergy storage
5. A study of catalytic metals and alkaline metal oxides leading to the development of a stable Ru-doped Ni Dual Function Material for CO2 capture from flue gas and in-situ catalytic conversion to methane Arellano Treviño, Martha Alejandra 2020 Theses Environmental engineeringChemical engineeringCarbon dioxide mitigationFlue gasesMethanationMaterials science
6. Coupled Kinetic and Mechanistic Study of Carbonation of Silicate Materials with Tailored Transport Behaviors for CO2 Utilization Rim, Guanhe 2020 Theses EngineeringAtmospheric carbon dioxideCarbon dioxide mitigationClimate change mitigationCarbon sequestrationSilicates
7. A Study of Carbon Dioxide Capture and Catalytic Conversion to Methane using a Ruthenium, “Sodium Oxide” Dual Functional Material: Development, Performance and Characterizations Wang, Shuoxun 2018 Theses Environmental engineeringCarbon dioxide mitigationRutheniumMaterials