Sheng-Fu Lin scite author profile

Sheng-Fu Lin

5Publications

55Citation Statements Received

120Citation Statements Given

How they've been cited

124

How they cite others

104

120

Affiliations

National Formosa University, National Central University

Publications

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Fabrication of a germanium quantum-dot single-electron transistor with large Coulomb-blockade oscillations at room temperature

Liao

Kuo

et al. 2004

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A simple and complementary metal-oxide-semiconductor-compatible method for fabricating germanium ͑Ge͒ single-electron transistors (SETs) is proposed, in which the Ge quantum dots (QDs) are naturally formed by selective oxidation of Si 0.95 Ge 0.05 / Si wires on a silicon-on-insulator substrate. Clear Coulomb-blockade oscillations, Coulomb staircase, and negative differential conductances were experimentally observed at room temperature. The tunneling currents through the Ge QDs were simulated by the Anderson model with two energy levels. Analysis of the current-voltage characteristics indicates that the single-electron addition energy of the Ge QD is about 125 meV.

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Formation of atomic-scale germanium quantum dots by selective oxidation of SiGe/Si-on-insulator

Liao

Lin

et al. 2003

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Electro-optic narrowband multi-wavelength filter in aperiodically poled lithium niobate

et al. 2007

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We report on an iterative design scheme for and the first experimental demonstration of active narrowband multi-wavelength filters based on aperiodically poled lithium niobate crystals. A simultaneous transmission of 8 wavelengths, each with a ~0.45-nm linewidth and nearly 100% peak transmittance, was achieved in such a device. The transmission spectrum of this device can be tuned by temperature at a rate of ~0.65 nm/ degrees C.

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Amplification of the Signal Intensity of Fluorescence-Based Fiber-Optic Biosensors Using a Fabry-Perot Resonator Structure

Hsieh

Chiu²,

Lin

et al. 2015

Sensors

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Fluorescent biosensors have been widely used in biomedical applications. To amplify the intensity of fluorescence signals, this study developed a novel structure for an evanescent wave fiber-optic biosensor by using a Fabry-Perot resonator structure. An excitation light was coupled into the optical fiber through a laser-drilled hole on the proximal end of the resonator. After entering the resonator, the excitation light was reflected back and forth inside the resonator, thereby amplifying the intensity of the light in the fiber. Subsequently, the light was used to excite the fluorescent molecules in the reactive region of the sensor. The experimental results showed that the biosensor signal was amplified eight-fold when the resonator reflector was formed using a 92% reflective coating. Furthermore, in a simulation, the biosensor signal could be amplified 20-fold by using a 99% reflector.

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Triple-Junction Optoelectronic Sensor with Nanophotonic Layer Integration for Single-Molecule Level Decoding

Hsieh¹,

Peng²,

Lin³

et al. 2019

ACS Nano

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Interest in developing a rapid and robust DNA sequencing platform has surged over the past decade. Various next-/third-generation sequencing mechanisms have been employed to replace the traditional Sanger sequencing method. In sequencing by synthesis, a signal is monitored by a scanning charge-coupled device (CCD) to identify thousands to millions of incorporated dNTPs with distinctive fluorophores on a chip. Because one reaction site usually occupies dozens of pixels on a CCD detector, a bottleneck related to the bandwidth of CCD imaging limits the throughputs of the sequencing performance and causes trade-offs among speed, accuracy, read length, and the numbers of reaction sites in parallel. Thus, current research aims to align one reaction site to a few pixels by directly stacking nanophotonic layers onto a CMOS detector to minimize the size of the sequencing platforms and accelerate the processing procedures. This article reports a custom integrated optoelectronic device based on a triple-junction photodiode (TPD) CMOS sensor in conjunction with NPL integration for real-time illumination and detection of fluorescent molecules.

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Sheng-Fu Lin

Fabrication of a germanium quantum-dot single-electron transistor with large Coulomb-blockade oscillations at room temperature

Formation of atomic-scale germanium quantum dots by selective oxidation of SiGe/Si-on-insulator

Electro-optic narrowband multi-wavelength filter in aperiodically poled lithium niobate

Amplification of the Signal Intensity of Fluorescence-Based Fiber-Optic Biosensors Using a Fabry-Perot Resonator Structure

Triple-Junction Optoelectronic Sensor with Nanophotonic Layer Integration for Single-Molecule Level Decoding

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