James R Neilson
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Explore the profile of James R Neilson including associated specialties, affiliations and a list of published articles.
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42
Citations
182
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Recent Articles
1.
Patheria E, Guzman P, Soldner L, Qian M, Morrell C, Kim S, et al.
J Am Chem Soc
. 2025 Mar;
PMID: 40037636
Li-ion batteries are crucial for the global energy transition to renewables; however, their scalability is limited by the supply of key elements used in commercial cathodes (e.g., Ni, Mn, Co,...
2.
ODonnell S, Mahatara S, Lany S, Bauers S, Smaha R, Neilson J
Inorg Chem
. 2024 Aug;
63(34):16075-16080.
PMID: 39140383
We investigate the synthesis of antiperovskite "MnAlN" using the published synthesis procedure, as well as several new reaction pathways. In each case, only a combination of antiperovskite MnN and MnAl...
3.
Todd P, Fallon M, Neilson J, Zakutayev A
ACS Mater Lett
. 2024 Mar;
3(12):1677-1683.
PMID: 38532807
Ternary nitride materials hold promise for many optical, electronic, and refractory applications; yet, their preparation via solid-state synthesis remains challenging. Often, high pressures or reactive gases are used to manipulate...
4.
Rom C, Novick A, McDermott M, Yakovenko A, Gallawa J, Tran G, et al.
J Am Chem Soc
. 2024 Jan;
146(6):4001-4012.
PMID: 38291812
Recent computational studies have predicted many new ternary nitrides, revealing synthetic opportunities in this underexplored phase space. However, synthesizing new ternary nitrides is difficult, in part because intermediate and product...
5.
Tran G, Wustrow A, ONolan D, Tao S, Bartel C, He T, et al.
Inorg Chem
. 2023 Dec;
63(7):3250-3257.
PMID: 38150180
The synthesis of complex oxides at low temperatures brings forward aspects of chemistry not typically considered. This study focuses on perovskite LaMnO, which is of interest for its correlated electronic...
6.
McDermott M, McBride B, Regier C, Tran G, Chen Y, Corrao A, et al.
ACS Cent Sci
. 2023 Oct;
9(10):1957-1975.
PMID: 37901171
Synthesis is a major challenge in the discovery of new inorganic materials. Currently, there is limited theoretical guidance for identifying optimal solid-state synthesis procedures. We introduce two selectivity metrics, primary...
7.
Ohmi T, Oswald I, Neilson J, Roth N, Nishioka S, Maeda K, et al.
J Am Chem Soc
. 2023 Aug;
145(36):19759-19767.
PMID: 37649142
α-FAPbI (FA = CH(NH)) with a cubic perovskite structure is promising for photophysical applications. However, α-FAPbI is metastable at room temperature, and it transforms to the δ-phase at a certain...
8.
Thatcher Z, Liu C, Yang L, McBride B, Tran G, Wustrow A, et al.
Acta Crystallogr A Found Adv
. 2022 May;
78(Pt 3):242-248.
PMID: 35502715
A cloud-hosted web-based software application, nmfMapping, for carrying out a non-negative matrix factorization of a set of powder diffraction or atomic pair distribution function datasets is described. This application allows...
9.
Koegel A, Mozur E, Oswald I, Jalarvo N, Prisk T, Tyagi M, et al.
J Am Chem Soc
. 2022 Jan;
144(3):1313-1322.
PMID: 35029372
The emission of white light from a single material is atypical and is of interest for solid-state lighting applications. Broadband light emission has been observed in some layered perovskite derivatives,...
10.
Todd P, McDermott M, Rom C, Corrao A, Denney J, Dwaraknath S, et al.
J Am Chem Soc
. 2021 Sep;
143(37):15185-15194.
PMID: 34491732
In sharp contrast to molecular synthesis, materials synthesis is generally presumed to lack selectivity. The few known methods of designing selectivity in solid-state reactions have limited scope, such as topotactic...