M
Mohsen Asle Zaeem
Researcher at Colorado School of Mines
Publications - 131
Citations - 3327
Mohsen Asle Zaeem is an academic researcher from Colorado School of Mines. The author has contributed to research in topics: Phase (matter) & Finite element method. The author has an hindex of 25, co-authored 114 publications receiving 2129 citations. Previous affiliations of Mohsen Asle Zaeem include Shiraz University & University of Missouri.
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Nickel telluride as a bifunctional electrocatalyst for efficient water splitting in alkaline medium
Umanga De Silva,Jahangir Masud,Ning Zhang,Yu Hong,Wipula P. R. Liyanage,Mohsen Asle Zaeem,Manashi Nath +6 more
TL;DR: In this article, the authors investigated the catalytic performance of Ni3Te2 and showed that increasing the covalency around the transition metal center enhances catalytic activity, which is the first instance where this hypothesis has been validated in the chalcogenide series.
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Fatigue-resistant high-performance elastocaloric materials made by additive manufacturing
Huilong Hou,Emrah Simsek,Tao Ma,Nathan S. Johnson,Suxin Qian,Cheikh Cissé,Drew Stasak,Naila Al Hasan,Lin Zhou,Yunho Hwang,Reinhard Radermacher,Valery I. Levitas,Valery I. Levitas,Matthew J. Kramer,Matthew J. Kramer,Mohsen Asle Zaeem,Aaron P. Stebner,Ryan T. Ott,Jun Cui,Jun Cui,Ichiro Takeuchi +20 more
TL;DR: In this paper, the use of a localized molten environment and near-eutectic mixing of elemental powders has led to the formation of nanocomposite microstructures composed of a nickel-rich intermetallic compound interspersed among a binary alloy matrix.
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A review on phase field modeling of martensitic phase transformation
TL;DR: A literature review of the past phase field modeling studies used to capture the formation and growth of martensite is provided in this paper, which is an invariant plane stress twinning.
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Superior structural, elastic and electronic properties of 2D titanium nitride MXenes over carbide MXenes: a comprehensive first principles study
TL;DR: The structural, elastic and electronic properties of two-dimensional (2D) titanium carbide/nitride based pristine and functionalized MXenes (Tin+1Cn/Tin + 1Nn) are investigated by density functional theory calculations as discussed by the authors.
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Fatigue-resistant high-performance elastocaloric materials via additive manufacturing.
Huilong Hou,Emrah Simsek,Tao Ma,Nathan S. Johnson,Suxin Qian,Cheikh Cissé,Drew Stasak,Naila Al Hasan,Lin Zhou,Yunho Hwang,Reinhard Radermacher,Valery I. Levitas,Matthew J. Kramer,Mohsen Asle Zaeem,Aaron P. Stebner,Ryan T. Ott,Jun Cui,Ichiro Takeuchi +17 more
TL;DR: This work has created thermodynamically efficient, low-hysteresis elastocaloric cooling materials by means of additive manufacturing of nickel-titanium by enabling distinct microstructure control of high-performance metallic refrigerants with long fatigue life.