Xiao-Chong Yu
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Explore the profile of Xiao-Chong Yu including associated specialties, affiliations and a list of published articles.
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Articles
12
Citations
218
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Recent Articles
1.
Yu X, Tang S, Liu W, Xu Y, Gong Q, Chen Y, et al.
Proc Natl Acad Sci U S A
. 2022 Feb;
119(6).
PMID: 35115398
Label-free sensors are highly desirable for biological analysis and early-stage disease diagnosis. Optical evanescent sensors have shown extraordinary ability in label-free detection, but their potentials have not been fully exploited...
2.
Yang D, Chen J, Cao Q, Duan B, Chen H, Yu X, et al.
Light Sci Appl
. 2021 Jun;
10(1):128.
PMID: 34135305
Optical microcavities have become an attractive platform for precision measurement with merits of ultrahigh sensitivity, miniature footprint and fast response. Despite the achievements of ultrasensitive detection, optical microcavities still face...
3.
Jin M, Tang S, Chen J, Yu X, Shu H, Tao Y, et al.
Nat Commun
. 2021 Mar;
12(1):1973.
PMID: 33785760
Optical evanescent sensors can non-invasively detect unlabeled nanoscale objects in real time with unprecedented sensitivity, enabling a variety of advances in fundamental physics and biological applications. However, the intrinsic low-frequency...
4.
Zhi Y, Yu X, Chen H, Guan B, Xiao Y
Opt Lett
. 2019 May;
44(10):2426-2429.
PMID: 31090698
Optical microcavities have been widely applied as sensitive detectors due to ultrahigh quality factors and small mode volumes. Besides considering the optical mode as the sensing signal, the optomechanical oscillations...
5.
Yu X, Zhi Y, Tang S, Li B, Gong Q, Qiu C, et al.
Light Sci Appl
. 2019 Mar;
7:18003.
PMID: 30839538
Although an accurate evaluation of the distribution of ultrafine particulate matter in air is of utmost significance to public health, the usually used PM index fails to provide size distribution...
6.
Tang S, Liu S, Yu X, Song Q, Gong Q, Xiao Y
Adv Mater
. 2018 May;
30(25):e1800262.
PMID: 29707858
Ultrasensitive and rapid detection of nano-objects is crucial in both fundamental studies and practical applications. Optical sensors using evanescent fields in microcavities, plasmonic resonators, and nanofibers allow label-free detection down...
7.
Zhi Y, Yu X, Gong Q, Yang L, Xiao Y
Adv Mater
. 2017 Jan;
29(12).
PMID: 28060436
Detection of nanoscale objects is highly desirable in various fields such as early-stage disease diagnosis, environmental monitoring and homeland security. Optical microcavity sensors are renowned for ultrahigh sensitivities due to...
8.
Wang P, Wang Y, Yang Z, Guo X, Lin X, Yu X, et al.
Nano Lett
. 2015 Oct;
15(11):7581-6.
PMID: 26479194
This paper reports a dramatic reduction in plasmon resonance line width of a single Au nanorod by coupling it to a whispering gallery cavity of a silica microfiber. With fiber...
9.
Li B, Clements W, Yu X, Shi K, Gong Q, Xiao Y
Proc Natl Acad Sci U S A
. 2014 Oct;
111(41):14657-62.
PMID: 25267618
Ultrasensitive nanoparticle detection holds great potential for early-stage diagnosis of human diseases and for environmental monitoring. In this work, we report for the first time, to our knowledge, single nanoparticle...
10.
Yu X, Li B, Wang P, Tong L, Jiang X, Li Y, et al.
Adv Mater
. 2014 Aug;
26(44):7462-7.
PMID: 25164067
Single-nanoparticle detection and sizing is demonstrated using a nanofiber pair in an aqueous environment. The sizing of nanoparticles with a single radius (100 nm) and of mixed nanoparticles with different...