T
Ting-Yu Liu
Researcher at Ming Chi University of Technology
Publications - 117
Citations - 4220
Ting-Yu Liu is an academic researcher from Ming Chi University of Technology. The author has contributed to research in topics: Chemistry & Raman spectroscopy. The author has an hindex of 27, co-authored 82 publications receiving 3505 citations. Previous affiliations of Ting-Yu Liu include University of Pennsylvania & National Chiao Tung University.
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Magnetic-sensitive behavior of intelligent ferrogels for controlled release of drug.
TL;DR: An intelligent magnetic hydrogel (ferrogel) fabricated by mixing poly(vinyl alcohol) (PVA) hydrogels and Fe3O4 magnetic particles through freezing-thawing cycles showed rapid to slow drug release can be tunable while the magnetic field was switched from "off" to "on" mode.
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Hemocompatibility of polyacrylonitrile dialysis membrane immobilized with chitosan and heparin conjugate.
TL;DR: PEC-immobilization can endow the PAN membrane hemocompatibility and antibacterial activity while retaining the original permeability, and the pure water permeability results show little variation due to PEC-IMobilization.
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Biomedical nanoparticle carriers with combined thermal and magnetic responses
TL;DR: In this paper, a soft material/hard material hybrid in which a magnetic metal or oxide is embedded in a temperature-responsive polymer matrix can combine the thermal sensitivity with magnetic signatures.
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Functionalized arrays of Raman-enhancing nanoparticles for capture and culture-free analysis of bacteria in human blood
Ting-Yu Liu,Ting-Yu Liu,Kun Tong Tsai,Kun Tong Tsai,Huai Hsien Wang,Huai Hsien Wang,Yu Chen,Yu Hsuan Chen,Yuan Chun Chao,H. H. Chang,Chi Hung Lin,Juen-Kai Wang,Juen-Kai Wang,Yuh-Lin Wang,Yuh-Lin Wang +14 more
TL;DR: Vancomycin (Van) coating of a special substrate with arrays of Ag-nanoparticles, which can provide label-free analysis of bacteria via surface enhanced Raman spectroscopy (SERS), leads to 1000 folds increase in its capability to capture bacteria without introducing significant spectral interference.
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Drug release behavior of chitosan-montmorillonite nanocomposite hydrogels following electrostimulation.
TL;DR: An inorganic phase, MMT, was incorporated in the CS matrix to enhance the anti-fatigue property and corresponding long-term stable release kinetics and in this work, the nanohydrogel with 2 wt.% MMT achieved a mechanically reliable and practically desirable pulsatile release profile and excellent anti-Fatigue behavior, compared with that of the pure CS.