Jialin Wu scite author profile

Jialin Wu

5Publications

26Citation Statements Received

9Citation Statements Given

How they've been cited

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337

Affiliations

Hohai University, National Sun Yat-sen University, Shenzhen University

Publications

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Modular microfluidics for life sciences

Fang

Zhang

et al. 2023

J Nanobiotechnol

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The advancement of microfluidics has enabled numerous discoveries and technologies in life sciences. However, due to the lack of industry standards and configurability, the design and fabrication of microfluidic devices require highly skilled technicians. The diversity of microfluidic devices discourages biologists and chemists from applying this technique in their laboratories. Modular microfluidics, which integrates the standardized microfluidic modules into a whole, complex platform, brings the capability of configurability to conventional microfluidics. The exciting features, including portability, on-site deployability, and high customization motivate us to review the state-of-the-art modular microfluidics and discuss future perspectives. In this review, we first introduce the working mechanisms of the basic microfluidic modules and evaluate their feasibility as modular microfluidic components. Next, we explain the connection approaches among these microfluidic modules, and summarize the advantages of modular microfluidics over integrated microfluidics in biological applications. Finally, we discuss the challenge and future perspectives of modular microfluidics.

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Adhesion–delamination phenomena at the interfaces of the dielectric layer

Pan

Mao

et al. 2020

Results in Physics

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Effective Enrichment of Plasmonic Hotspots for SERS by Spinning Droplets on a Slippery Concave Dome Array

Cai

Fan

et al. 2022

Biosensors

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Surface-enhanced Raman scattering (SERS) detection requires dense hotspots and a uniform distribution of analytes to obtain a stable signal with good repeatability. However, due to the coffee-ring effect on the hydrophilic substrate, and the difficulty of droplet manipulation on the superhydrophobic substrate, few substrates can ensure that the analytes are evenly distributed. In this work, we develop a method that can efficiently enrich plasmonic hotspots for SERS measurement on the superhydrophobic concave dome array (SCDA). The SCDA is formed by spraying hydrophobic silica nanoparticles onto a polydimethylsiloxane (PDMS) slab with a concave dome array that can physically confine the droplets and overcome the coffee-ring effect. During droplet evaporation, the SCDA is driven by a horizontal spinner, and the droplets spin on the SCDA, enabling the plasmonic nanoparticles to become closely packed to form the SERS hotspots. The limit of detection (LOD) of the dynamic-enriched SERS hotspots for crystal violet and methylene blue can reach up to 10−11 M. Moreover, the LOD for melamine in milk can reach 5 × 10−7 M, which is lower than the safety threshold defined by the Food and Drug Administration (FDA). Based on this SERS platform, an effective, low-cost, and simple method for SERS detection in analytical chemistry and food safety is highly expected.

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Optimized Pre-bond Test Methodology for Silicon Interposer Testing

et al. 2014

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Pre-bond testing of silicon interposer is difficult due to the large number of nets to be tested and small number of test access ports. Recently, it was proposed to include a test interposer that is contacted with the interposer under test in the testing process. Combining these two interposers provides access to nets that are not normally accessible. Previous synthesis method for test interposer was based on constrained breadth-first search, which can be time-consuming. Besides, separate test interposers have to be provided for open and short fault testing. In this paper, we present a theoretical study on the topology of testable circuit structure for interconnect faults in silicon interposer. Based on the theoretical framework, a more efficient synthesis method is developed. Furthermore, a single test interposer can be used for both open and short fault detection, which leads to shorter test time and lower test cost.

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High precision FPGA real-time linear structured light imaging system

Fei

Wang

et al. 2021

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Jialin Wu

Modular microfluidics for life sciences

Adhesion–delamination phenomena at the interfaces of the dielectric layer

Effective Enrichment of Plasmonic Hotspots for SERS by Spinning Droplets on a Slippery Concave Dome Array

Optimized Pre-bond Test Methodology for Silicon Interposer Testing

High precision FPGA real-time linear structured light imaging system

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