Your search keyword '"Kim, Mansu"' showing total 2 results

1. Reconstructing Oxygen‐Deficient Zirconia with Ruthenium Catalyst on Atomic‐Scale Interfaces toward Hydrogen Production.

Author

Kim, Mansu, Kim, Seung‐hoon, Park, Jonghwan, Lee, Seongsoo, Jang, Injoon, Kim, Sohui, Lee, Chang Yeon, Kwon, Oh Joong, Ham, Hyung Chul, Hupp, Joseph T., Jung, Namgee, Yoo, Sung Jong, and Whang, Dongmok

Subjects

*HYDROGEN production, *HYDROGEN evolution reactions, *METALLIC oxides, *RUTHENIUM catalysts, *CATALYTIC activity, *ZIRCONIUM oxide, *METAL-organic frameworks

Abstract

Downsizing a catalyst nanoparticle (NP) to a single atom (SA) has proven to be highly effective in increasing catalytic activity and decreasing the amount of catalyst required for various electrochemical reactions. However, insufficient stability of the single‐atom site catalysts (SACs) is still a significant challenge for their practical application. Here, SACs firmly bound to stable metal oxide NPs are proposed to dramatically increase the electrochemical activity and stability of SA‐based catalysts for hydrogen evolution reaction (HER). Starting from a Ru‐infiltrated, Zr‐based metal‐organic framework (MOF), the tetragonal zirconium oxide (ZrO2‐x) NPs‐embedded carbon matrix is fabricated as support through facile pyrolysis. Simultaneously, Ru SAs as active sites are well dispersed on the surface of ZrO2‐x NPs due to the generation of oxygen vacancies in the tetragonal ZrO2‐x. The Ru‐ZrO2‐x SAC exhibits a 4–5 times higher mass activity than commercial Pt and Ru catalysts and superior durability due to strong metal‐support interaction (SMSI) between Ru atoms and ZrO2‐x substrate. [ABSTRACT FROM AUTHOR]

Published

2023

2. Reconstructing Oxygen‐Deficient Zirconia with Ruthenium Catalyst on Atomic‐Scale Interfaces toward Hydrogen Production (Adv. Funct. Mater. 29/2023).

Author

Kim, Mansu, Kim, Seung‐hoon, Park, Jonghwan, Lee, Seongsoo, Jang, Injoon, Kim, Sohui, Lee, Chang Yeon, Kwon, Oh Joong, Ham, Hyung Chul, Hupp, Joseph T., Jung, Namgee, Yoo, Sung Jong, and Whang, Dongmok

Subjects

*HYDROGEN production, *RUTHENIUM catalysts, *ZIRCONIUM oxide

Abstract

The cover art depicts the strong interaction between single-atom site Ru catalysts and chemically stable ZrO SB 2-x sb nanoparticles, enabling superior stability and improved activity of the catalysts for hydrogen evolution reactions. Hydrogen evolution reaction, metal-organic frameworks, metal-support interactions, oxygen-deficient zirconia, reconstruction engineering, Ru catalysts, single-atom sites catalysts Keywords: hydrogen evolution reaction; metal-organic frameworks; metal-support interactions; oxygen-deficient zirconia; reconstruction engineering; Ru catalysts; single-atom sites catalysts EN hydrogen evolution reaction metal-organic frameworks metal-support interactions oxygen-deficient zirconia reconstruction engineering Ru catalysts single-atom sites catalysts 1 1 1 07/21/23 20230718 NES 230718 B Single-Atom Sites Catalysts b In article number 2300673, Dongmok Whang, Sung Jong Yoo, Namgee Jung, Joseph T. Hupp, and co-workers present a strategy to enhance the efficiency and durability of sub-nanometer catalysts for electrochemical reactions. [Extracted from the article]

Published

2023