Jonathan S Owen
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Explore the profile of Jonathan S Owen including associated specialties, affiliations and a list of published articles.
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52
Citations
851
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Recent Articles
1.
Park S, Bhai L, Lee G, Park A, Marbella L, Owen J
Chem Sci
. 2024 Dec;
16(2):933-938.
PMID: 39660297
We report the synthesis and characterization of octahedral UiO-66 nanocrystals ( = 17-25 nm) terminated with amine, oleate, and octadecylphosphonate ligands. Acetate capped UiO-66 nanocrystals were dispersed in toluene using...
2.
Valleix R, Zhang W, Jordan A, Guillemeney L, Castro L, Zekarias B, et al.
Nano Lett
. 2024 May;
24(19):5722-5728.
PMID: 38712788
Quantum dots (QDs) with metal fluoride surface ligands were prepared via reaction with anhydrous oleylammonium fluoride. Carboxylate terminated II-VI QDs underwent carboxylate for fluoride exchange, while InP QDs underwent photochemical...
3.
Saenz N, Hamachi L, Wolock A, Goodge B, Kuntzmann A, Dubertret B, et al.
Chem Sci
. 2023 Nov;
14(43):12345-12354.
PMID: 37969574
A mixture of ,,'-trisubstituted thiourea and cyclic ,,','-tetrasubstituted selenourea precursors were used to synthesize three monolayer thick CdSSe nanoplatelets in a single synthetic step. The microstructure of the nanoplatelets could...
4.
Nam J, Owen J, Talapin D
Acc Chem Res
. 2023 Sep;
56(17):2265-2266.
PMID: 37667656
No abstract available.
5.
Nguyen H, Dixon G, Dou F, Gallagher S, Gibbs S, Ladd D, et al.
Chem Rev
. 2023 Jun;
123(12):7890-7952.
PMID: 37311205
Solution-processed semiconductors are in demand for present and next-generation optoelectronic technologies ranging from displays to quantum light sources because of their scalability and ease of integration into devices with diverse...
6.
Lee C, Xu E, Kwock K, Teitelboim A, Liu Y, Park H, et al.
Nature
. 2023 May;
618(7967):951-958.
PMID: 37258675
Materials whose luminescence can be switched by optical stimulation drive technologies ranging from superresolution imaging, nanophotonics, and optical data storage, to targeted pharmacology, optogenetics, and chemical reactivity. These photoswitchable probes,...
7.
Campos M, De Roo J, Greenberg M, McMurtry B, Hendricks M, Bennett E, et al.
Chem Sci
. 2022 Jun;
13(16):4555-4565.
PMID: 35656143
A library of thio- and selenourea derivatives is used to adjust the kinetics of PbE (E = S, Se) nanocrystal formation across a 1000-fold range ( = 10 to 10...
8.
Abecassis B, Greenberg M, Bal V, McMurtry B, Campos M, Guillemeney L, et al.
Chem Sci
. 2022 Jun;
13(17):4977-4983.
PMID: 35655873
Modern syntheses of colloidal nanocrystals yield extraordinarily narrow size distributions that are believed to result from a rapid "burst of nucleation" (La Mer, , 1950, (11), 4847-4854) followed by diffusion...
9.
Ryu J, Park S, Baranov D, Rreza I, Owen J, Jonas D
Sci Adv
. 2021 May;
7(22).
PMID: 34049871
For quantum-confined nanomaterials, size dispersion causes a static broadening of spectra that has been difficult to measure and invalidates all-optical methods for determining the maximum photovoltage that an excited state...
10.
Rreza I, Yang H, Hamachi L, Campos M, Hull T, Treadway J, et al.
ACS Appl Mater Interfaces
. 2021 Mar;
13(10):12191-12197.
PMID: 33682411
We report the color conversion performance of amber and red emitting quantum dots (QDs) on InGaN solid-state lighting (SSL) light emitting diode (LED) packages. Spherical quantum well (SQW) architectures (CdS/CdSeS/CdS)...