Chun‐Chieh Lin scite author profile

Chun‐Chieh Lin

4Publications

158Citation Statements Received

6Citation Statements Given

How they've been cited

226

152

How they cite others

Affiliations

National Taiwan Normal University, National Dong Hwa University, National Taiwan University

Publications

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Resistive Switching Mechanisms ofV-Doped$hboxSrZrO_3$Memory Films

Lin

et al. 2006

IEEE Electron Device Lett.

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The resistive switching behaviors of sputtered V-doped SrZrO 3 (V:SZO) memory films were investigated in this letter. The current states of the memory films were switched between high current state (H-state) and low current state (L-state). The resistance ratio of the two current states was over 1000 at a read voltage. The switching mechanism from L-to H-state corresponds to the formation of current paths. However, this mechanism from H-to L-state is thought to be due to the fact that the defects present in the V:SZO film randomly trap electrons, and hence, the current paths are ruptured. The conduction mechanism of the H-state is dominated by ohmic conduction, whereas the L-state conduction is dominated by Frenkel-Poole emission. The polarity direction of the resistive switching is an intrinsic property of the SrZrO 3 oxides. The V:SZO films with high uniformity and good stability are expected to be used in nonvolatile memory.Index Terms-Conduction mechanism, nonvolatile memory (NVM), resistive random access memory (RRAM), resistive switching, SrZrO 3 .

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Voltage-Polarity-Independent and High-Speed Resistive Switching Properties of V-Doped $\hbox{SrZrO}_{3}$ Thin Films

Lin

et al. 2007

IEEE Trans. Electron Devices

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Application of capillary electrophoresis-fluorescence line-narrowing spectroscopy for on-line spectral characterization of closely related analytes

Zamzow

Lin

Small

et al. 1997

Journal of Chromatography A

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Optical biosensor assay (OBA)

Tsay¹,

Lin²,

Lee³

et al. 1991

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We describe a new biosensor immunoassay involving optical diffraction to detect clinically important analytes in human body fluids. A silicon wafer is used as a support for immobilization of antigen or antibody. The protein-coated surface is illuminated through a photo mask to create distinct periodic areas of active and inactive protein. When the surface is incubated with a positive sample, antigen-antibody binding occurs only on the active areas. Upon illumination with a light source such as a laser, the resulting biological diffraction grating diffracts the light. A negative sample does not result in diffraction because no antigen-antibody binding occurs to create the diffraction grating. The presence or absence of a diffraction signal differentiates between positive and negative samples, and the intensity of the signal provides a quantitative measure of the analyte concentration. The technique is demonstrated with a quantitative assay of choriogonadotropin in serum.

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Chun‐Chieh Lin

Resistive Switching Mechanisms ofV-Doped$hboxSrZrO_3$Memory Films

Voltage-Polarity-Independent and High-Speed Resistive Switching Properties of V-Doped $\hbox{SrZrO}_{3}$ Thin Films

Application of capillary electrophoresis-fluorescence line-narrowing spectroscopy for on-line spectral characterization of closely related analytes

Optical biosensor assay (OBA)

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