Weiliang Shu
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Explore the profile of Weiliang Shu including associated specialties, affiliations and a list of published articles.
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Articles
11
Citations
166
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Recent Articles
1.
Zhang Q, Hao Y, Zeng T, Shu W, Xue P, Li Y, et al.
Adv Sci (Weinh)
. 2024 Jul;
11(39):e2401796.
PMID: 39044365
Graphene field-effect transistors (GFETs) are widely used in biosensing due to their excellent properties in biomolecular signal amplification, exhibiting great potential for high-sensitivity and point-of-care testing in clinical diagnosis. However,...
2.
Feng H, Zhang J, Shu W, Bai X, Song L, Chen Y
Micromachines (Basel)
. 2024 Jan;
15(1).
PMID: 38258186
Optofluidic dye lasers integrated into microfluidic chips are promising miniature coherent light sources for biosensing. However, achieving the accurate and efficient tuning of lasers remains challenging. This study introduces a...
3.
Feng H, Liu L, Chen Y, Shu W, Huang Y, Zhang B, et al.
Analyst
. 2021 May;
146(14):4454-4460.
PMID: 33982715
MicroRNAs (miRNAs) have attracted extensive interest as promising biomarkers for the profiling of diseases. However, quantitative measurement of miRNAs presents a significant challenge in biochemical studies. In this work, we...
4.
Zhang B, Xu H, Huang Y, Shu W, Feng H, Cai J, et al.
Analyst
. 2019 Nov;
144(24):7185-7191.
PMID: 31688860
In this paper, we present a novel method to improve the efficiency of single-cell transcriptome sequencing for analyzing valuable cell samples. The microfluidic device we designed integrates multiple single-cell isolation...
5.
Feng H, Shu W, Xu H, Zhang B, Huang B, Wang J, et al.
Micromachines (Basel)
. 2018 Nov;
8(12).
PMID: 30400552
We demonstrate a two-directional tuning method of distributed feedback (DFB) film dye laser devices to achieve high quality lasing and a large tuning range. In this work, we proposed a...
6.
An integrated microfluidic device for rapid and high-sensitivity analysis of circulating tumor cells
Jiang J, Zhao H, Shu W, Tian J, Huang Y, Song Y, et al.
Sci Rep
. 2017 Feb;
7:42612.
PMID: 28198402
Recently there has been a more focus on the development of an efficient technique for detection of circulating tumor cells (CTCs), due to their significance in prognosis and therapy of...
7.
Feng H, Shu W, Chen X, Zhang Y, Lu Y, Wang L, et al.
Biomed Microdevices
. 2015 Sep;
17(5):101.
PMID: 26371060
We present a microfluidic platform with integrated power splitting waveguides for optogenetic neural cell stimulation. A liquid-core/PDMS-cladding waveguide with a power splitter design was integrated with a neural cell culture...
8.
Liu Z, Huang F, Du J, Shu W, Feng H, Xu X, et al.
Biomicrofluidics
. 2014 Jan;
7(1):11801.
PMID: 24396522
This work reports a microfluidic device with deterministic lateral displacement (DLD) arrays allowing rapid and label-free cancer cell separation and enrichment from diluted peripheral whole blood, by exploiting the size-dependent...
9.
Liu Z, Zhang W, Huang F, Feng H, Shu W, Xu X, et al.
Biosens Bioelectron
. 2013 Apr;
47:113-9.
PMID: 23567630
In this work, we introduced an integrated microfluidic system for fast and efficient circulating tumor cell (CTC) isolation and capture. In this microfluidic platform, a combination of microfluidic deterministic lateral...
10.
Chen Y, Zhang B, Feng H, Shu W, Chen G, Zhong J
Lab Chip
. 2012 Jul;
12(20):3930-5.
PMID: 22814625
Single-cell transcriptome contains reliable gene regulatory relationships because gene-gene interactions only happen within a mammalian cell. While the study of gene-gene interactions enables us to understand the molecular mechanism of...