Radu Custelcean

Overview

Explore the profile of Radu Custelcean including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 59

Citations 391

Followers 0

Related Specialties

Chemistry

Biology

Biomedical Engineering

Top 10 Co-Authors

Bruce A Moyer

Vyacheslav S Bryantsev

Charles A Seipp

Neil J Williams

Benjamin P Hay

Ying-Zhong Ma

Peter V Bonnesen

Uvinduni I Premadasa

Benjamin Doughty

Jeffrey D Einkauf

Published In

Chem Commun (Camb)

Inorg Chem

Angew Chem Int Ed Engl

Chemistry

J Am Chem Soc

Affiliations

Soon will be listed here.

Recent Articles

Conformationally Adaptable Extractant Flexes Strong Lanthanide Reverse-Size Selectivity

Islam M, Lin L, Ray D, Premadasa U, Ma Y, Sacci R, et al.

J Am Chem Soc . 2025 Jan; 147(6):5080-5088. PMID: 39744917

Chemical selectivity is traditionally understood in the context of rigid molecular scaffolds with precisely defined local coordination and chemical environments that ultimately facilitate a given transformation of interest. By contrast,...

In Silico Screening of CO-Dipeptide Interactions for Bioinspired Carbon Capture

Sylvanus A, Jones G, Custelcean R, Vogiatzis K

Chemphyschem . 2024 Nov; 26(4):e202400498. PMID: 39607812

Carbon capture, sequestration and utilization offers a viable solution for reducing the total amount of atmospheric CO concentrations. On an industrial scale, amine-based solvents are extensively employed for CO capture...

Photoisomerization mechanism of iminoguanidinium receptors from spectroscopic methods and quantum chemical calculations

Dang D, Einkauf J, Ma X, Custelcean R, Ma Y, Zimmerman P, et al.

Phys Chem Chem Phys . 2024 Sep; 26(36):24008-24020. PMID: 39246286

The hydrazone functional group, when coupled with a pyridyl substituent, offers a unique class of widely tunable photoswitches, whose -to- photoisomerization equilibria can be controlled through intramolecular hydrogen bonding between...

Towards Energy-Efficient Direct Air Capture with Photochemically-Driven CO Release and Solvent Regeneration

Premadasa U, Doughty B, Custelcean R, Ma Y

Chempluschem . 2024 Mar; 89(10):e202300713. PMID: 38456801

The intensive energy demands associated with solvent regeneration and CO release in current direct air capture (DAC) technologies makes their deployment at the massive scales (GtCO/year) required to positively impact...

Synergistic Assembly of Charged Oligomers and Amino Acids at the Air-Water Interface: An Avenue toward Surface-Directed CO Capture

Premadasa U, Kumar N, Zhu Z, Stamberga D, Li T, Roy S, et al.

ACS Appl Mater Interfaces . 2024 Feb; 16(9):12052-12061. PMID: 38411063

Interfaces are considered a major bottleneck in the capture of CO from air. Efforts to design surfaces to enhance CO capture probabilities are challenging due to the remarkably poor understanding...

Tailoring Chemical Absorption-Precipitation to Lower the Regeneration Energy of a CO Capture Solvent

Jang G, Jung G, Seo J, Keum J, Yoon M, Damron J, et al.

ChemSusChem . 2023 Sep; 17(2):e202300735. PMID: 37682803

Solvent-based CO capture consumes significant amounts of energy for solvent regeneration. To improve energy efficiency, this study investigates CO fixation in a solid form through solvation, followed by ionic self-assembly-aided...

Direct Extraction of Sodium Hydroxide by Calix[4]pyrrole-Based Ion-Pair Receptors

Hwang I, Huang S, Smith S, Lynch V, Custelcean R, Moyer B, et al.

J Am Chem Soc . 2023 Jun; 145(26):14387-14394. PMID: 37343135

Described in this work are calix[4]pyrrole-based ion-pair receptors, /- and /-, designed for the extraction of sodium hydroxide. An X-ray diffraction analysis of a single crystal of the -·NaOH isomer...

Photochemically-Driven CO Release Using a Metastable-State Photoacid for Energy Efficient Direct Air Capture

Premadasa U, Bocharova V, Miles A, Stamberga D, Belony S, Bryantsev V, et al.

Angew Chem Int Ed Engl . 2023 May; 62(29):e202304957. PMID: 37198131

One of the grand challenges underlying current direct air capture (DAC) technologies relates to the intensive energy cost for sorbent regeneration and CO release, making the massive scale (GtCO /year)...

Near Quantitative Removal of Selenate and Sulfate Anions from Wastewaters by Cocrystallization with Chelating Hydrogen-Bonding Guanidinium Ligands

Einkauf J, Williams N, Seipp C, Custelcean R

JACS Au . 2023 Apr; 3(3):879-888. PMID: 37006778

Selenium (Se) has become an environmental contaminant of aquatic ecosystems as a result of human activities, particularly mining, fossil fuel combustion, and agricultural activities. By leveraging the high sulfate concentrations...

10.

Chemical Feedback in the Self-Assembly and Function of Air-Liquid Interfaces: Insight into the Bottlenecks of CO Direct Air Capture

Premadasa U, Dong D, Stamberga D, Custelcean R, Roy S, Ma Y, et al.

ACS Appl Mater Interfaces . 2023 Mar; 15(15):19634-19645. PMID: 36944180

As fossil fuels remain a major source of energy throughout the world, developing efficient negative emission technologies, such as direct air capture (DAC), which remove carbon dioxide (CO) from the...