Radu Custelcean Distinguished Research Scientist Contact 865.574.5018 | custelceanr@ornl.gov All Publications In Silico Screening of CO2-Dipeptide Interactions for Bioinspired Carbon Capture Sub-Ambient Performance of Potassium Sarcosinate for Direct Air Capture Applications: CO2 Flux and Viscosity Measurements Towards Energy-Efficient Direct Air Capture with Photochemically-Driven CO2 Release and Solvent Regeneration Effective direct steam regeneration of bis-iminoguanidine solid sorbent used for carbon dioxide capture Pronounced reduction in the regeneration energy of potassium sarcosinate CO2 capture solvent using TiO2... Integrated Process for Direct Air Capture of CO2 and Electrochemical Conversion to Ethanol Direct Air Capture of CO2 via Reactive Crystallization... Synergistic Assembly of Charged Oligomers and Amino Acids at the Air–Water Interface: An Avenue toward Surface-Directed CO2... Tailoring Chemical Absorption-Precipitation to Lower the Regeneration Energy of a CO2 Capture Solvent... Structure of the Bastnäsite (001) Surface by Crystal Truncation Rod X-ray Diffraction and Ab Initio Molecular Dynamics: Implications for Separations of a Rare Earth Ore Mineral An effective air–liquid contactor for CO2 direct air capture using aqueous solvents Direct Extraction of Sodium Hydroxide by Calix[4]pyrrole-Based Ion-Pair Receptors Photochemically-Driven CO2 Release Using a Metastable-State Photoacid for Energy Efficient Direct Air Capture Ultra-fast microwave regeneration of CO2 solid sorbents for energy-efficient direct air capture... Chemical Feedback in the Self-Assembly and Function of Air–Liquid Interfaces: Insight into the Bottlenecks of CO 2 Direct Air Capture Near Quantitative Removal of Selenate and Sulfate Anions from Wastewaters by Cocrystallization with Chelating Hydrogen-Bondin... Determination of the regeneration energy of direct air capture solvents/sorbents using calorimetric methods... Anti-electrostatic hydrogen-bonded tellurate dimers captured and stabilized by crystallization of a bis-iminoguanidinium salt The status and prospects of materials for carbon capture technologies Direct Air Capture of CO2 Using Solvents Synergistic direct air capture of CO2 with aqueous guanidine/amino acid solvents A Photoresponsive Receptor with a 105 Magnitude of Reversible Anion-Binding Switching... Direct air capture with bis-iminoguanidines: From discovery to commercialization Direct air capture of CO 2 via crystal engineering Carbon dioxide capture with aqueous amino acids: Mechanistic study of amino acid regeneration by guanidine crystallization and process intensification Pagination Current page 1 Page 2 Page 3 … Next page ›› Last page Last » Key Links Curriculum Vitae Google Scholar ORCID LinkedIn Organizations Physical Sciences Directorate Chemical Sciences Division Separations and Polymer Chemistry Section Chemical Separations Group