Richard E Wilson
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Explore the profile of Richard E Wilson including associated specialties, affiliations and a list of published articles.
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50
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119
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Recent Articles
1.
Mikeska E, Curry T, Wilson R, Blakemore J
Dalton Trans
. 2024 Dec;
53(48):19126-19142.
PMID: 39628353
The redox chemistry of the actinyl cations (AnO) heavily influences their reactivity and speciation in solution, but the redox properties of the actinyls in non-aqueous media have received far less...
2.
Mikeska E, Wilson R, Blakemore J, Blakemore J
Chemistry
. 2024 Dec;
31(6):e202402963.
PMID: 39621660
Two unconventional polynuclear complexes of neptunium (Np) featuring mono- -oxo motifs have been accessed by proton-coupled electron transfer (PCET) reactivity involving the dissolution of neptunyl(VI) diacetate dihydrate ( HOAc) in...
3.
Kravchuk D, Wilson R
Inorg Chem
. 2024 Nov;
63(46):22049-22060.
PMID: 39498859
A fundamental understanding of coordination chemistry across the lanthanide series is essential for explaining the chemical behavior of rare-earth metals in complex liquid-liquid extraction processes. Probing the exact bonding between...
4.
Wang X, Peroutka A, Kravchuk D, Shafer J, Wilson R, Servis M
Chem Sci
. 2024 Oct;
PMID: 39364072
Lanthanide ion solvation chemistry in nonaqueous phases is key to understanding and developing effective separation processes for these critical materials. Due to the complexity and inherent disorder of the solution...
5.
Mikeska E, Wilson R, Sen A, Autschbach J, Blakemore J
J Am Chem Soc
. 2024 Jul;
146(31):21509-21524.
PMID: 39047184
Uranyl diacetate dihydrate is a useful reagent for the preparation of uranyl (UO) coordination complexes, as it is a well-defined stoichiometric compound featuring moderately basic acetates that can facilitate protonolysis...
6.
Wang X, Nayak S, Wilson R, Soderholm L, Servis M
Phys Chem Chem Phys
. 2023 Dec;
26(4):2877-2886.
PMID: 38048065
Extractant design in liquid-liquid extraction (LLE) is a research frontier of metal ion separations that typically focuses on the direct extractant-metal interactions. However, a more detailed understanding of energetic drivers...
7.
Tarlton M, Persinger T, Byrne N, Douglas T, Yakovenko A, Wilson R
Inorg Chem
. 2023 Sep;
62(41):16770-16781.
PMID: 37775335
An exploration of the synthetic and structural phase space of rare earth hybrid double perovskites AB'BX (A = organocation, B' = M, B = M, X = molecular bridging anion)...
8.
Hutchison D, Kravchuk D, Rajapaksha H, Stegman S, Forbes T, Wilson R
Inorg Chem
. 2023 Sep;
62(40):16564-16573.
PMID: 37768147
The ternary oxides, LiNpO and LiNpO, were synthesized under mild hydrothermal conditions using concentrated LiOH solutions containing NpO(NO). The reactions resulted in the formation of single crystals of both compounds,...
9.
Oher H, Pereira Gomes A, Wilson R, Schnaars D, Vallet V
Inorg Chem
. 2023 Jun;
62(24):9273-9284.
PMID: 37278409
Bent uranyl complexes can be formed with chloride ligands and 1,10-phenanthroline (phen) ligands bound to the equatorial and axial planes of the uranyl(VI) moiety, as revealed by the crystal structures,...
10.
Tarlton M, Skanthakumar S, Hutchison D, Gremillion A, Oliver A, Wilson R
Inorg Chem
. 2022 Oct;
61(43):17101-17108.
PMID: 36240111
In efforts to study the periodic chemical properties of the rare earth elements and their structural chemistry, a hybrid double perovskite phase AB'BX with the formula ((CH)N)KLn(NO) (Ln = La-Lu,...