Author
Listed:
- Jaeyoung Hong
(Korea Institute of Science and Technology)
- Jee-Hwan Bae
(Korea Institute of Science and Technology)
- Hyesung Jo
(Korea Advanced Institute of Science and Technology)
- Hee-Young Park
(Korea Institute of Science and Technology)
- Sehyun Lee
(Korea Institute of Science and Technology)
- Sung Jun Hong
(Yonsei University
Yonsei University)
- Hoje Chun
(Yonsei University)
- Min Kyung Cho
(Korea Institute of Science and Technology)
- Juyoung Kim
(Korea Institute of Science and Technology)
- Joodeok Kim
(Institute for Basic Science (IBS)
Seoul National University)
- Yongju Son
(Institute for Basic Science (IBS)
Seoul National University)
- Haneul Jin
(Korea Institute of Science and Technology)
- Jin-Yoo Suh
(Korea Institute of Science and Technology)
- Sung-Chul Kim
(Korea Institute of Science and Technology)
- Ha-Kyung Roh
(Korea Institute of Science and Technology)
- Kyu Hyoung Lee
(Yonsei University)
- Hyung-Seok Kim
(Korea Institute of Science and Technology)
- Kyung Yoon Chung
(Korea Institute of Science and Technology
Korea University of Science and Technology)
- Chang Won Yoon
(Korea Institute of Science and Technology
Korea University of Science and Technology
Kyung Hee University)
- Kiryeong Lee
(Korea Institute of Science and Technology)
- Seo Hee Kim
(Korea Institute of Science and Technology)
- Jae-Pyoung Ahn
(Korea Institute of Science and Technology)
- Hionsuck Baik
(Korea Basic Science Institute)
- Gyeung Ho Kim
(Korea Institute of Science and Technology)
- Byungchan Han
(Yonsei University)
- Sungho Jin
(University of California San Diego)
- Taeghwan Hyeon
(Institute for Basic Science (IBS)
Seoul National University)
- Jungwon Park
(Institute for Basic Science (IBS)
Seoul National University
Seoul National University)
- Chang Yun Son
(Pohang University of Science and Technology)
- Yongsoo Yang
(Korea Advanced Institute of Science and Technology)
- Young-Su Lee
(Korea Institute of Science and Technology)
- Sung Jong Yoo
(Korea Institute of Science and Technology
Korea University of Science and Technology
Kyung Hee University)
- Dong Won Chun
(Korea Institute of Science and Technology
Korea Institute of Science and Technology)
Abstract
Metastable phases—kinetically favoured structures—are ubiquitous in nature1,2. Rather than forming thermodynamically stable ground-state structures, crystals grown from high-energy precursors often initially adopt metastable structures depending on the initial conditions, such as temperature, pressure or crystal size1,3,4. As the crystals grow further, they typically undergo a series of transformations from metastable phases to lower-energy and ultimately energetically stable phases1,3,4. Metastable phases sometimes exhibit superior physicochemical properties and, hence, the discovery and synthesis of new metastable phases are promising avenues for innovations in materials science1,5. However, the search for metastable materials has mainly been heuristic, performed on the basis of experiences, intuition or even speculative predictions, namely ‘rules of thumb’. This limitation necessitates the advent of a new paradigm to discover new metastable phases based on rational design. Such a design rule is embodied in the discovery of a metastable hexagonal close-packed (hcp) palladium hydride (PdHx) synthesized in a liquid cell transmission electron microscope. The metastable hcp structure is stabilized through a unique interplay between the precursor concentrations in the solution: a sufficient supply of hydrogen (H) favours the hcp structure on the subnanometre scale, and an insufficient supply of Pd inhibits further growth and subsequent transition towards the thermodynamically stable face-centred cubic structure. These findings provide thermodynamic insights into metastability engineering strategies that can be deployed to discover new metastable phases.
Suggested Citation
Jaeyoung Hong & Jee-Hwan Bae & Hyesung Jo & Hee-Young Park & Sehyun Lee & Sung Jun Hong & Hoje Chun & Min Kyung Cho & Juyoung Kim & Joodeok Kim & Yongju Son & Haneul Jin & Jin-Yoo Suh & Sung-Chul Kim , 2022.
"Metastable hexagonal close-packed palladium hydride in liquid cell TEM,"
Nature, Nature, vol. 603(7902), pages 631-636, March.
Handle:
RePEc:nat:nature:v:603:y:2022:i:7902:d:10.1038_s41586-021-04391-5
DOI: 10.1038/s41586-021-04391-5
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Citations
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Cited by:
- Juntao Zhang & Xiaozhi Liu & Yujin Ji & Xuerui Liu & Dong Su & Zhongbin Zhuang & Yu-Chung Chang & Chih-Wen Pao & Qi Shao & Zhiwei Hu & Xiaoqing Huang, 2023.
"Atomic-thick metastable phase RhMo nanosheets for hydrogen oxidation catalysis,"
Nature Communications, Nature, vol. 14(1), pages 1-9, December.
- Laihao Luo & Xinyan Liu & Xinyu Zhao & Xinyan Zhang & Hong-Jie Peng & Ke Ye & Kun Jiang & Qiu Jiang & Jie Zeng & Tingting Zheng & Chuan Xia, 2024.
"Pressure-induced generation of heterogeneous electrocatalytic metal hydride surfaces for sustainable hydrogen transfer,"
Nature Communications, Nature, vol. 15(1), pages 1-15, December.
- Ahmed M. Abdellah & Fatma Ismail & Oliver W. Siig & Jie Yang & Carmen M. Andrei & Liza-Anastasia DiCecco & Amirhossein Rakhsha & Kholoud E. Salem & Kathryn Grandfield & Nabil Bassim & Robert Black & G, 2024.
"Impact of palladium/palladium hydride conversion on electrochemical CO2 reduction via in-situ transmission electron microscopy and diffraction,"
Nature Communications, Nature, vol. 15(1), pages 1-15, December.
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