Saehwa Chong
Overview
Explore the profile of Saehwa Chong including associated specialties, affiliations and a list of published articles.
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Articles
21
Citations
38
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Recent Articles
1.
Riley B, Canfield N, Chong S, Crum J
ACS Omega
. 2024 Aug;
9(32):34661-34674.
PMID: 39157085
This paper presents composite waste form concepts for radioiodine immobilization including halide-metal () composites, polymer-halide-metal () composites, and halide-ceramic-metal () composites with data from experiments to evaluate these ideas. The...
2.
Chong S, Riley B, Lu X, Du J, Mahadevan T, Hegde V
RSC Adv
. 2024 Jun;
14(27):18978-19000.
PMID: 38873547
The synthesis methods, crystal structures, and properties of anhydrous monazite and xenotime (REPO) crystalline materials are summarized within this review. For both monazite and xenotime, currently available Inorganic Crystal Structure...
3.
Asmussen R, Turner J, Chong S, Riley B
Front Chem
. 2023 Jan;
10:1043653.
PMID: 36618856
Radioiodine capture and immobilization is not only important to consider during the operation of reactors (i.e., I-131), during nuclear accidents (i.e., I-131 and I-129) or nuclear fuel reprocessing (i.e., I-131...
4.
Baskaran K, Elliott C, Ali M, Moon J, Beland J, Cohrs D, et al.
J Hazard Mater
. 2023 Jan;
446:130644.
PMID: 36587601
The capture of long-lived radioactive iodine (I) from oxidizing off-gasses produced from reprocessing used nuclear fuel is paramount to human health and environmental safety. Bismuth has been investigated as a...
5.
Riley B, Chong S
Front Chem
. 2022 Oct;
10:976781.
PMID: 36186603
Reactions between phosphoric acid [HPO] or ammonium hydrogen phosphates [i.e., NHHPO, (NH)HPO] and halide salts can be used to dehalogenate (remove halides from) salt-based waste streams, where the process of...
6.
Riley B, Chong S, Schmid J, Marcial J, Nienhuis E, Bera M, et al.
ACS Appl Mater Interfaces
. 2022 Apr;
14(16):18439-18452.
PMID: 35412785
This study evaluated zeolite-based sorbents for iodine gas [I] capture. Based on the framework structures and porosities, five zeolites, including two faujasite (FAU), one ZSM-5 (MFI), one mesoMFI, one ZSM-22...
7.
Riley B, Chong S, Lonergan C
ACS Omega
. 2021 Dec;
6(47):32239-32252.
PMID: 34870044
This paper describes an apparatus used to remove chlorine from chloride salt-based nuclear wastes from electrochemical reprocessing and/or chloride-based molten salt reactors (MSRs) through dechlorination by reacting the salts with...
8.
Chong S, Riley B, Kuang W, Olszta M
ACS Omega
. 2021 May;
6(17):11628-11638.
PMID: 34056318
Various radionuclides are released as gases during reprocessing of used nuclear fuel or during nuclear accidents including iodine-129 (I) and iodine-131 (I). These isotopes are of particular concern to the...
9.
Chong S, Perry S, Riley B, Nelson Z
Acta Crystallogr E Crystallogr Commun
. 2021 Feb;
76(Pt 12):1871-1875.
PMID: 33520272
Six potassium rare-earth molybdates K(MoO) ( = Tb, Dy, Ho, Er, Yb, and Lu) were synthesized by flux-assisted growth in KMoO. The crystal structures were determined using single-crystal X-ray diffraction...
10.
Riley B, Chong S, Olszta M, Peterson J
ACS Appl Mater Interfaces
. 2021 Jan;
13(2):3491.
PMID: 33412843
No abstract available.