P
Peidong Yang
Researcher at University of California, Berkeley
Publications - 597
Citations - 159053
Peidong Yang is an academic researcher from University of California, Berkeley. The author has contributed to research in topics: Nanowire & Perovskite (structure). The author has an hindex of 183, co-authored 562 publications receiving 144351 citations. Previous affiliations of Peidong Yang include Max Planck Society & University of California, Santa Barbara.
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KLF8 promotes cancer stem cell-like phenotypes in osteosarcoma through miR-429-SOX2 signaling.
TL;DR: Targeting KLF8-miR-429-SOX2 signaling pathway may provide an effective therapeutic approach to suppress the initiation and progression of OS.
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The making of a reconfigurable semiconductor with a soft ionic lattice
Mengyu Gao,Mengyu Gao,Ye Zhang,Ye Zhang,Zhenni Lin,Zhenni Lin,Jianbo Jin,Maria C. Folgueras,Peidong Yang +8 more
TL;DR: In this article, the authors summarize key milestones in the synthesis community of inorganic halide perovskite nanostructures and highlight how the reaction kinetics and thermodynamics distinguish them from traditional inorganic semiconductors.
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Operando Resonant Soft X-ray Scattering Studies of Chemical Environment and Interparticle Dynamics of Cu Nanocatalysts for CO2 Electroreduction.
Yao Yang,In-Bae Roh,Sheena Louisia,Chubai Chen,Jianbo Jin,Sunmoon Yu,Miquel Salmeron,Cheng Wang,Peidong Yang +8 more
TL;DR: In this paper, an operando electrochemical resonant soft X-ray scattering (EC-RSoXS) was developed to probe the chemical identity of active sites during the dynamic structural transformation of Cu nanoparticle (NP) ensembles through 1 μm thick electrolyte.
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Ta3N5 nanowire bundles as visible-light-responsive photoanodes.
Cheng Hao Wu,Christopher Hahn,Sher Bahadar Khan,Abdullah M. Asiri,Salem M. Bawaked,Peidong Yang,Peidong Yang +6 more
TL;DR: A facile high-temperature bottom-up synthetic method for producing Ta3N5 nanowire bundles (NWBs), which exhibit great promise as a visible-light-responsive photoanode as well as self-oxidation of N3 species from the accumulation of photo-generated holes.
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Solid-State Ionic Rectification in Perovskite Nanowire Heterostructures.
TL;DR: It is demonstrated that halide ion migration is dependent on the applied electric field and exhibits ionic rectification in this solid-state system, which is due to the nonuniform distribution of the ionic vacancies in the nanowire that results from a competition between electrical screening and their creation/destruction at the electrodes' interfaces.