Y
Yushan Yan
Researcher at University of Delaware
Publications - 415
Citations - 35247
Yushan Yan is an academic researcher from University of Delaware. The author has contributed to research in topics: Membrane & Catalysis. The author has an hindex of 89, co-authored 388 publications receiving 28544 citations. Previous affiliations of Yushan Yan include Lawrence Berkeley National Laboratory & Honeywell.
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Efficient water oxidation using nanostructured α-nickel-hydroxide as an electrocatalyst.
TL;DR: The results suggest the possibility for the development of effective and robust OER electrocatalysts by using cheap and easily prepared α-Ni(OH)2 to replace the expensive commercial catalysts such as RuO2 or IrO2.
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Interfacial polymerization of thin film nanocomposites: A new concept for reverse osmosis membranes
Byeong-Heon Jeong,Eric M.V. Hoek,Yushan Yan,Arun Subramani,Xiaofei Huang,Gil Hurwitz,A. K. Ghosh,Anna Jawor +7 more
TL;DR: In this article, a new concept for formation of mixed matrix reverse osmosis membranes by interfacial polymerization of nanocomposite thin films in situ on porous polysulfone supports is reported.
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Supportless Pt and PtPd nanotubes as electrocatalysts for oxygen-reduction reactions.
TL;DR: The durability problem is particularlysevere in the cathode, where the oxygen-reduction reaction(ORR) occurs, and a fast and significant loss of platinum electrochemical surfacearea (ECSA) over time during fuel cell operation.
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Correlating the hydrogen evolution reaction activity in alkaline electrolytes with the hydrogen binding energy on monometallic surfaces
TL;DR: In this paper, the authors demonstrate that the HER exchange current density in alkaline solutions can be correlated with calculated hydrogen binding energy (HBE) on the metal surfaces via a volcano type of relationship.
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3D Porous Crystalline Polyimide Covalent Organic Frameworks for Drug Delivery
Qianrong Fang,Qianrong Fang,Junhua Wang,Shuang Gu,Robert B. Kaspar,Zhongbin Zhuang,Jie Zheng,Hongxia Guo,Hongxia Guo,Shilun Qiu,Yushan Yan +10 more
TL;DR: Three-dimensional porous crystalline polyimide covalent organic frameworks (termed PI-COFs) have been synthesized and show high thermal stability and surface area and high loading and good release control for drug delivery applications.