Benjamin Doughty
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Explore the profile of Benjamin Doughty including associated specialties, affiliations and a list of published articles.
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Articles
66
Citations
156
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Recent Articles
1.
Sun P, Bhattacharjee N, Einkauf J, Doughty B
J Phys Chem Lett
. 2025 Feb;
16(8):2128-2135.
PMID: 39976560
The competition between bulk and interfacial phenomena underlies many key processes in complex chemical phenomena and transport. While competitive processes are often framed in a thermodynamic context, opportunities to leverage...
2.
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,...
3.
Lin L, Liu C, Sacci R, Chen X, Doughty B
J Chem Phys
. 2024 Nov;
161(20).
PMID: 39575741
Lithium-ion batteries increasingly play significant roles in modern technologies; however, increased energy density also raises concerns about electrolyte safety. Traditional electrolytes that use volatile organic solvents face risks of thermal...
4.
Marinov G, Doughty B, Kundaje A, Greenleaf W
Genome Res
. 2024 Nov;
35(1):109-123.
PMID: 39572228
Histone proteins have traditionally been thought to be restricted to eukaryotes and most archaea, with eukaryotic nucleosomal histones deriving from their archaeal ancestors. In contrast, bacteria lack histones as a...
5.
Premadasa U, Kumar N, Stamberga D, Bocharova V, Damron J, Li T, et al.
J Chem Phys
. 2024 Oct;
161(16).
PMID: 39450735
The direct air capture (DAC) of CO2 using aqueous solvents is plagued by slow kinetics and interfacial barriers that limit effectiveness in combating climate change. Functionalizing air/aqueous surfaces with charged...
6.
Pagaduan J, Hight-Huf N, Zhou L, Dix N, Premadasa U, Doughty B, et al.
ACS Cent Sci
. 2024 Sep;
10(8):1629-1639.
PMID: 39220689
Understanding the electronic properties resulting from soft-hard material interfacial contact has elevated the utility of functional polymers in advanced materials and nanoscale structures, such as in work function engineering of...
7.
Kumar N, Premadasa U, Dong D, Roy S, Ma Y, Doughty B, et al.
Langmuir
. 2024 Jul;
40(28):14311-14320.
PMID: 38958522
Amino acids make up a promising family of molecules capable of direct air capture (DAC) of CO from the atmosphere. Under alkaline conditions, CO reacts with the anionic form of...
8.
Liu Z, Lin L, Li T, Premadasa U, Hong K, Ma Y, et al.
J Colloid Interface Sci
. 2024 May;
669:552-560.
PMID: 38729003
Hypothesis: Understanding the rules that control the assembly of nanostructured soft materials at interfaces is central to many applications. We hypothesize that electrolytes can be used to alter the hydration...
9.
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...
10.
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...