Min Gyu Kim
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Explore the profile of Min Gyu Kim including associated specialties, affiliations and a list of published articles.
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188
Citations
2430
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Recent Articles
1.
Lee J, Na Y, Na C, Im P, Park H, Kim M, et al.
Theranostics
. 2025 Mar;
15(7):2883-2902.
PMID: 40083938
Superparamagnetic iron oxide nanoparticles (SPIONs) are promising contrast agents for imaging-guided cancer therapies. However, challenges such as the requirement for a high alternating magnetic field (AMF), dosage limitations, and suboptimal...
2.
Son Y, Jang H, Wen B, Jo C, Groombridge A, Boies A, et al.
J Mater Chem A Mater
. 2025 Mar;
PMID: 40078871
Titanium niobium oxides (TNOs) are attractive anode materials for high power density Li-ion batteries. However, the details of capacity storage in TNOs are not fully understood today as it depends...
3.
Taghavimandi F, Kim M, Lee M, Shin K
Tissue Eng Regen Med
. 2025 Mar;
PMID: 40056364
Background: Branched polymers, including star, dendrimers, comb, and biomimetic polymers, are increasingly recognized for their potential in tissue engineering. Their unique architectures and functional properties contribute to enhanced mechanical strength,...
4.
Zhang Y, Li Z, Jang H, Kim M, Cho J, Liu S, et al.
Adv Mater
. 2025 Mar;
:e2501586.
PMID: 40052632
Alkaline water electrolysis represents a pivotal technology for green hydrogen production yet faces critical challenges including limited current density and high energy input. Herein, a heterostructured bimetallic nitrides supported RuNi...
5.
Gu X, Li Z, Jang H, Tang J, Sun C, Kim M, et al.
Small
. 2025 Feb;
:e2412123.
PMID: 39981792
Ruthenium (Ru) -based catalysts have been considered a promising candidate for efficient sustainable hydrogen and chlor-alkali co-production. Theoretical calculations have disclosed that the hollow sites on the Ru surface have...
6.
Kim M, Jang H, Lee E, Seo J, Park J, Choi A, et al.
Sci Adv
. 2025 Feb;
11(8):eadt0232.
PMID: 39970216
Apart from conventional redox chemistries, exploring high-voltage anionic redox processes, such as pure oxygen or high-valent transition metal ion redox, poses challenges due to the instability of O nonbonding or...
7.
Liu Y, Wang Y, Li H, Kim M, Duan Z, Talat K, et al.
Nat Commun
. 2025 Feb;
16(1):1717.
PMID: 39962051
Ruthenium dioxide electrocatalysts for acidic oxygen evolution reaction suffer from mediocre activity and rather instability induced by high ruthenium-oxygen covalency. Here, the tensile strained strontium and tantalum codoped ruthenium dioxide...
8.
Hong Y, Hong Y, Kumari N, Kim J, Maji A, Kim M, et al.
Angew Chem Int Ed Engl
. 2025 Feb;
:e202423169.
PMID: 39901605
Installing well-defined high density single-atomic catalyst (SAC) sites is highly desired for the synergistic cooperative effect in efficient chemical synthesis but elusive to synthesize due to unavoidable atomic segregation into...
9.
Hou L, Li Z, Jang H, Kim M, Cho J, Zhong W, et al.
Angew Chem Int Ed Engl
. 2024 Dec;
:e202423756.
PMID: 39688090
To enhance the alkaline hydrogen evolution reaction (HER), it is crucial, yet challenging, to fundamentally understand and rationally modulate potential catalytic sites. In this study, we confirm that despite calculating...
10.
Kumar A, Gil-Sepulcre M, Fandre J, Rudiger O, Kim M, DeBeer S, et al.
J Am Chem Soc
. 2024 Oct;
146(48):32953-32964.
PMID: 39378366
Single-atom catalysts dispersed on an oxide support are essential for overcoming the sluggishness of the oxygen evolution reaction (OER). However, the durability of most metal single-atoms is compromised under harsh...