24 Papers
222 Citations
Sa Li is an academic researcher from Virginia Commonwealth University. The author has contributed to research in topics: Hydrogen & Electronic structure. The author has an hindex of 13, co-authored 24 publications. Previous affiliations of Sa Li include Royal Institute of Technology & Uppsala University.
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Papers
Vacancy-mediated hydrogen desorption in NaAlH4
TL;DR: In this article, first principles based on density functional theory are carried out to understand the mechanisms responsible for hydrogen desorption from Ti-doped sodium-alanate, and it is suggested that this role of vacancies can be exploited in the design and synthesis of complex light metal hydrides suitable for hydrogen storage.
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Synthesis and characterization of highly porous borazine-linked polymers and their performance in hydrogen storage application
TL;DR: In this article, a new class of highly porous borazine-linked polymers (BLPs) was synthesized utilizing arylamines and boron trihalides, which exhibit Brunauer-Emmett-Teller (BET) surface areas in the range of 503 to 1364 m2 g−1 and store up to 1.3 wt% of hydrogen with 7.1 kJ mol−1 isosteric heat of adsorption.
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Dehydrogenation Mechanism in Catalyst-activated MgH2
Sa Li,Puru Jena,Rajeev Ahuja +2 more
TL;DR: In this paper, the role of Nb substitution and vacancies on hydrogen bonding and desorption in MgH2 has been investigated by carrying out comprehensive theoretical studies of the role.
Cerium; Crystal Structure and Position in The Periodic Table
TL;DR: It is shown that the localized ⇌ delocalized 4f electron picture provides an adequate description of this unique behavior of the cerium volume collapse and this agreement makes it possible to suggest that an appropriate crossroad position for cerium in The Periodic Table.
Novel nanofluids based on mesoporous silica for enhanced heat transfer
Nader Nikkam,Mohsin Saleemi,Muhammet S. Toprak,Sa Li,Mamoun Muhammed,Ehsan Bitaraf Haghighi,Rahmatollah Khodabandeh,Björn Palm +7 more
TL;DR: In this article, the authors proposed a method to enhance the efficiency of nanofluids with engineered nanometer-sized particles suspensions, which have drawn remarkable attraction from the researchers because of their enormous potential to enhance energy efficiency.
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