Paul Chow
Overview
Explore the profile of Paul Chow including associated specialties, affiliations and a list of published articles.
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39
Citations
178
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Recent Articles
1.
Hammons J, Kang S, Ferron T, Aydin F, Lin T, Seung K, et al.
Nano Lett
. 2024 Oct;
24(43):13695-13701.
PMID: 39412343
Gas bubbles are a necessary byproduct of water electrolysis whereby hydrogen and oxygen are produced from water. These attached gases reduce the electrode's active area, which necessitates a deep understanding...
2.
Lee S, Yi Y, Kim Y, Kim H, Chow P, Xiao Y, et al.
Sci Adv
. 2023 May;
9(20):eadg4159.
PMID: 37205753
Diamond shows unprecedented hardness. Because hardness is a measure of resistance of chemical bonds in a material to external indentation, the electronic bonding nature of diamond beyond several million atmospheres...
3.
Bommannavar A, Chow P, Ferry R, Hrubiak R, Humble F, Kenney-Benson C, et al.
Phys Chem Miner
. 2022 Aug;
49(9):36.
PMID: 35992384
High-Pressure Collaborative Access Team (HPCAT) is a synchrotron-based facility located at the Advanced Photon Source (APS). With four online experimental stations and various offline capabilities, HPCAT is focused on providing...
4.
Chen B, Tian M, Zhang J, Li B, Xiao Y, Chow P, et al.
Phys Rev Lett
. 2022 Jul;
129(1):016401.
PMID: 35841573
Valence transition could induce structural, insulator-metal, nonmagnetic-magnetic and superconducting transitions in rare-earth metals and compounds, while the underlying physics remains unclear due to the complex interaction of localized 4f electrons...
5.
Breckling S, Kozioziemski B, Dresselhaus-Marais L, Gonzalez A, Williams A, Simons H, et al.
J Synchrotron Radiat
. 2022 Jul;
29(Pt 4):947-956.
PMID: 35787560
Compound refractive lenses (CRLs) are established X-ray focusing optics, and are used to focus the beam or image the sample in many beamlines at X-ray facilities. While CRLs are quite...
6.
Kim Y, Yi Y, Kim H, Chow P, Xiao Y, Shen G, et al.
J Am Chem Soc
. 2022 May;
144(22):10025-10033.
PMID: 35616519
Noncrystalline oxides under pressure undergo gradual structural modifications, highlighted by the formation of a dense noncrystalline network topology. The nature of the densified networks and their electronic structures at high...
7.
Jiang Z, Wang Y, Jiang D, Li C, Liu K, Wen T, et al.
J Phys Chem Lett
. 2021 Jul;
12(27):6348-6353.
PMID: 34228936
Volume collapse under high pressure is an intriguing phenomenon involving subtle interplay between lattice, spin, and charge. The two most important causes of volume collapse are lattice collapse (low-density to...
8.
Meng L, Duwal S, Lane J, Ao T, Stoltzfus B, Knudson M, et al.
J Am Chem Soc
. 2021 Feb;
143(7):2688-2693.
PMID: 33577287
We report here pressure induced nanocrystal coalescence of ordered lead chalcogenide nanocrystal arrays into one-dimensional (1D) and 2D nanostructures. In particular, atomic crystal phase transitions and mesoscale coalescence of PbS...
9.
Li B, Ding Y, Kim D, Wang L, Weng T, Yang W, et al.
Phys Rev Lett
. 2021 Feb;
126(3):036402.
PMID: 33543962
Metallization of hydrogen as a key problem in modern physics is the pressure-induced evolution of the hydrogen electronic band from a wide-gap insulator to a closed gap metal. However, due...
10.
Klein R, Walsh J, Clarke S, Liu Z, Ercan Alp E, Bi W, et al.
Phys Rev Lett
. 2020 Aug;
125(7):077202.
PMID: 32857531
We report a pressure-induced phase transition in the frustrated kagomé material jarosite at ∼45 GPa, which leads to the disappearance of magnetic order. Using a suite of experimental techniques, we...