Kwok Hoe Chan
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Explore the profile of Kwok Hoe Chan including associated specialties, affiliations and a list of published articles.
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10
Citations
151
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Recent Articles
1.
Cheng Y, Zhou Y, Wang R, Chan K, Liu Y, Ding T, et al.
ACS Nano
. 2022 Nov;
16(11):18608-18620.
PMID: 36318185
On-skin patches that record biopotential and biomechanical signals are essential for wearable healthcare monitoring, clinical treatment, and human-machine interaction. To acquire wearing comfort and high-quality signals, patches with tissue-like softness,...
2.
Wang X, Chan K, Lu W, Ding T, Ng S, Cheng Y, et al.
Nat Commun
. 2022 Jun;
13(1):3369.
PMID: 35690594
Mechanical properties of hydrogels are crucial to emerging devices and machines for wearables, robotics and energy harvesters. Various polymer network architectures and interactions have been explored for achieving specific mechanical...
3.
Li T, Chan K, Ding T, Wang X, Cheng Y, Zhang C, et al.
Sci Adv
. 2021 Feb;
7(2).
PMID: 33523978
Bioinspired nano/microswarm enables fascinating collective controllability beyond the abilities of the constituent individuals, yet almost invariably, the composed units are of single species. Advancing such swarm technologies poses a grand...
4.
Ding T, Chan K, Zhou Y, Wang X, Cheng Y, Li T, et al.
Nat Commun
. 2020 Nov;
11(1):6006.
PMID: 33243999
Textile electronics are poised to revolutionize future wearable applications due to their wearing comfort and programmable nature. Many promising thermoelectric wearables have been extensively investigated for green energy harvesting and...
5.
Wang X, Chan K, Cheng Y, Ding T, Li T, Achavananthadith S, et al.
Adv Mater
. 2020 Apr;
32(21):e2000351.
PMID: 32285545
Living organisms are capable of sensing and responding to their environment through reflex-driven pathways. The grand challenge for mimicking such natural intelligence in miniature robots lies in achieving highly integrated...
6.
Cheng Y, Chan K, Wang X, Ding T, Li T, Lu X, et al.
ACS Nano
. 2019 Oct;
13(11):13176-13184.
PMID: 31625724
Hydrogels are promising starting materials for biomimetic soft robots as they are intrinsically soft and hold properties analogous to nature's organic parts. However, the restrictive mold-casting and post-assembly fabrication alongside...
7.
Wang X, Tan C, Chan K, Lu X, Zhu L, Kim S, et al.
Nat Commun
. 2018 Aug;
9(1):3438.
PMID: 30143624
Utilization of ubiquitous low-grade waste heat constitutes a possible avenue towards soft matter actuation and energy recovery opportunities. While most soft materials are not all that smart relying on power...
8.
Cheng Y, Wang R, Chan K, Lu X, Sun J, Ho G
ACS Nano
. 2018 Mar;
12(4):3898-3907.
PMID: 29584398
Adaptive tendril coiling of climbing plants has long inspired the artificial soft microsystem for actuation and morphing. The current bionic research efforts on tendril coiling focus on either the preparation...
9.
Liow C, Lu X, Tan C, Chan K, Zeng K, Li S, et al.
Small
. 2017 Dec;
14(7).
PMID: 29239097
Surface plasmon-based photonics offers exciting opportunities to enable fine control of the site, span, and extent of mechanical harvesting. However, the interaction between plasmonic photothermic and piezoresponse still remains underexplored....
10.
Wang X, Tan C, Chan K, Xu K, Hong M, Kim S, et al.
ACS Nano
. 2017 Oct;
11(10):10568-10574.
PMID: 28972730
At present, there are various limitations to harvesting ambient waste heat which include the lack of economically viable material and innovative design features that can efficiently recover low grade heat...