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Younan Xia
Researcher at The Wallace H. Coulter Department of Biomedical Engineering
Publications - 974
Citations - 192658
Younan Xia is an academic researcher from The Wallace H. Coulter Department of Biomedical Engineering. The author has contributed to research in topics: Nanocages & Catalysis. The author has an hindex of 216, co-authored 943 publications receiving 175757 citations. Previous affiliations of Younan Xia include Washington University in St. Louis & University of Texas at Dallas.
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Biomimetics: reconstitution of low-density lipoprotein for targeted drug delivery and related theranostic applications.
TL;DR: A tutorial review on the development of reconstituted LDL (rLDL) particles for the targeted delivery of theranostic applications and highlights the applications of rLDL particles in the staging of disease progression, treatment of lesioned tissues, and delivery of photosensitizers for photodynamic cancer therapy.
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Hierarchical nanostructures of K-birnessite nanoplates on anatase nanofibers and their application for decoloration of dye solution
TL;DR: In this article, a simple method for fabricating hierarchical nanostructures consisting of K-birnessite nanoplates on anatase (TiO2) nanofibers was reported.
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Ruthenium Nanoframes in the Face-Centered Cubic Phase: Facile Synthesis and Their Enhanced Catalytic Performance.
Ming Zhao,Zachary D. Hood,Zachary D. Hood,Madeline Vara,Kyle D. Gilroy,Miaofang Chi,Younan Xia,Younan Xia +7 more
TL;DR: This work demonstrates the rational synthesis of Ru cuboctahedral nanoframes with enhanced catalytic performance toward hydrazine decomposition and offers the opportunity to engineer both the morphology and crystal phase of Ru nanocrystals for catalytic applications.
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Modifying the pores of an inverse opal scaffold with chitosan microstructures for truly three-dimensional cell culture.
TL;DR: It is demonstrated that a truly 3D microenvironment can be created inside a pore by further functionalizing the as-prepared inverse opal scaffold with a second polymer by freeze-drying and the resultant inverse opals with hierarchically structured pores can enhance both cell proliferation and tissue infiltration.
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Formation of patterned microstructures of polycrystalline ceramics from precursor polymers using micromolding in capillaries
TL;DR: In this paper, the authors used micromolding in capillaries to generate patterned microstructures of ZrO2 or SnO2 from its polymeric precursor, which could be either supported on solid substrates or released as freestanding fibers and membranes.