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Yuan-Chih Chang
Researcher at Academia Sinica
Publications - 62
Citations - 1712
Yuan-Chih Chang is an academic researcher from Academia Sinica. The author has contributed to research in topics: Carbon nanotube & Homologous recombination. The author has an hindex of 17, co-authored 60 publications receiving 1230 citations. Previous affiliations of Yuan-Chih Chang include National Yunlin University of Science and Technology.
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W8, a new Sup35 prion strain, transmits distinctive information with a conserved assembly scheme.
TL;DR: Electron diffraction and mass-per-length measurements indicate that, similar to the 3 previously characterized strains, W8 fibers are composed of about 1 prion molecule per 4.7-Å cross-β repeat period, thus differently folded single Sup35 molecules, not dimeric and trimeric assemblies, form the basic repeating units to build the 4 [PSI] strains.
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Characterization of single 1.8-nm Au nanoparticle attachments on AFM tips for single sub-4-nm object pickup
Hui-Wen Cheng,Yuan-Chih Chang,Song-Nien Tang,Chi-Tsu Yuan,Jau Tang,Fan-Gang Tseng,Fan-Gang Tseng +6 more
TL;DR: A novel method for the attachment of a 1.8-nm Au nanoparticle (Au-NP) to the tip of an atomic force microscopy (AFM) probe through the application of a current-limited bias voltage is presented.
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Internal polymer scaffolding in lipid-coated microbubbles for control of inertial cavitation in ultrasound theranostics
TL;DR: A lipid-polymer composite structure developed for tuning of inertial cavitation activity of microbubbles under ultrasound exposure was developed by incorporating a thin layer of polymer networks inside the lipid monolayer to increase the safety of ultrasound theranostic applications assisted by microbubble cavitation.
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Two-dimensional dopant profiling by electrostatic force microscopy using carbon nanotube modified cantilevers.
Shu-Cheng Chin,Yuan-Chih Chang,Chen-Chih Hsu,Wei-Hsiang Lin,Chih-I Wu,Chia-Seng Chang,Tien T Tsong,Tien T Tsong,Wei Yen Woon,Li-Te Lin,Hun-Jan Tao +10 more
TL;DR: In this study, the CNT-probed EFM is used to profile 2D buried dopant distribution under a nano-scale device structure and shows the feasibility of device characterization for sub-45 nm complementary metal-oxide-semiconductor (CMOS) field-effect transistors.
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Resonance frequency shift of a carbon nanotube with a silver nanoparticle adsorbed at various positions
TL;DR: In this paper, a single silver nanoparticle along the length of a carbon nanotube based resonator was positioned and investigated the resonance frequency shift subject to the particle's position, and a curve derived from the classical continuum model can fit well to the experimental data, implying the applicability of the analytical formula even in the nanometer range.