Sara L Adelman

Overview

Explore the profile of Sara L Adelman including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 8

Citations 49

Followers 0

Related Specialties

Chemistry

Science

Biology

Top 10 Co-Authors

Stosh A Kozimor

James K McCusker

Zachary R Jones

Veronika Mocko

Ping Yang

Enrique R Batista

Benjamin W Stein

Harrison D Root

David Dan

Bryan C Paulus

Published In

Chem Sci

Nature

Inorg Chem

Sci Adv

ACS Sustain Chem Eng

Affiliations

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Recent Articles

Advancing Rare-Earth (4) and Actinide (5) Separation through Machine Learning and Automated High-Throughput Experiments

Augustine L, Wang Y, Adelman S, Batista E, Kozimor S, Perez D, et al.

ACS Sustain Chem Eng . 2024 Nov; 12(45):16692-16699. PMID: 39545104

Identifying improved and sustainable alternatives to "classic" separation techniques is an active research field due to its potential widespread impact in fundamental and applied chemistry. As basic purification methodologies, like...

PuCl{CoCp[OP(OEt)]}: transuranic elements entering the field of heterometallic molecular chemistry

Shaw T, Jones Z, Adelman S, Anderson N, Bowes E, Bauer E, et al.

Chem Sci . 2024 Aug; 15(32):12754-12764. PMID: 39148769

Recent advances enabled the discovery of heterometallic molecules for many metals: main group, d-block, lanthanides, and some actinides (U, Th). These complexes have at least two different metals joined by...

Advances in heavy alkaline earth chemistry provide insight into complexation of weakly polarizing Ra, Ba, and Sr cations

Gilhula J, Xu L, White F, Adelman S, Aldrich K, Batista E, et al.

Sci Adv . 2024 Jan; 10(1):eadj8765. PMID: 38181087

Numerous technologies-with catalytic, therapeutic, and diagnostic applications-would benefit from improved chelation strategies for heavy alkaline earth elements: Ra, Ba, and Sr. Unfortunately, chelating these metals is challenging because of their...

Oxidizing Americium(III) with Sodium Bismuthate in Acidic Aqueous Solutions

Rice N, Dalodiere E, Adelman S, Jones Z, Kozimor S, Mocko V, et al.

Inorg Chem . 2022 Aug; 61(33):12948-12953. PMID: 35939562

Historic perspectives describing f-elements as being redox "inactive" are fading. Researchers continue to discover new oxidation states that are not as inaccessible as once assumed for actinides and lanthanides. Inspired...

Advancing the Am Extractant Design through the Interplay among Planarity, Preorganization, and Substitution Effects

Zhang X, Adelman S, Arko B, De Silva C, Su J, Kozimor S, et al.

Inorg Chem . 2022 Jul; 61(30):11556-11570. PMID: 35866884

Advancing the field of chemical separations is important for nearly every area of science and technology. Some of the most challenging separations are associated with the americium ion Am(III) for...

Author Correction: Leveraging excited-state coherence for synthetic control of ultrafast dynamics

Paulus B, Adelman S, Jamula L, McCusker J

Nature . 2020 Aug; 585(7823):E1. PMID: 32814906

An amendment to this paper has been published and can be accessed via a link at the top of the paper.

Leveraging excited-state coherence for synthetic control of ultrafast dynamics

Paulus B, Adelman S, Jamula L, McCusker J

Nature . 2020 Jun; 582(7811):214-218. PMID: 32528090

Design-specific control over excited-state dynamics is necessary for any application seeking to convert light into chemical potential. Such control is especially desirable in iron(II)-based chromophores, which are an Earth-abundant option...

Insights into the excited state dynamics of Fe(ii) polypyridyl complexes from variable-temperature ultrafast spectroscopy

Carey M, Adelman S, McCusker J

Chem Sci . 2019 Feb; 10(1):134-144. PMID: 30746076

In an effort to better define the nature of the nuclear coordinate associated with excited state dynamics in first-row transition metal-based chromophores, variable-temperature ultrafast time-resolved absorption spectroscopy has been used...