Atomic‐Scale Engineering: Anion Constructor for Atomic‐Scale Engineering of Antiperovskite Crystals for Electrochemical Reactions (Adv. Funct. Mater. 16/2021)

In article number 2009241, Docheon Ahn, Pil Kim, Sung Jong Yoo, and co‐workers synthesize monolithic antiperovskite crystals through atomic‐scale engineering. The nitride PdNi alloy achieves excellent catalytic activity and durability under acidic media, resulting from the synergistic effect of nitr...

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Bibliographic Details
Published in:Advanced functional materials 2021-04, Vol.31 (16), p.n/a
Main Authors: Lee, Sehyun, Jung, Jae Young, Jang, Injoon, Choi, Daeil, Lee, Myeong Jae, Lee, Dong Wook, Jang, Jue‐Hyuk, Lee, Jeong Hee, Jin, Haneul, Im, Kyungmin, Lee, Eungjun, Kim, Seung‐hoon, Kim, Nam Dong, Lee, Soo‐Hyoung, Kang, Yun Sik, Park, Hee‐Young, Chun, Dongwon, Ham, Hyung Chul, Lee, Kug‐Seung, Ahn, Docheon, Kim, Pil, Yoo, Sung Jong
Format: Article
Language:English
Subjects:
acidic media
atomic‐scale engineering
electrocatalysis
electrochemical reactions
palladium alloys
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Summary:In article number 2009241, Docheon Ahn, Pil Kim, Sung Jong Yoo, and co‐workers synthesize monolithic antiperovskite crystals through atomic‐scale engineering. The nitride PdNi alloy achieves excellent catalytic activity and durability under acidic media, resulting from the synergistic effect of nitride and intermetallic structures. This strategy will pave the way for overcoming the catalytic performance of potential materials.
ISSN:1616-301X
1616-3028
DOI:10.1002/adfm.202170112