Welcome to Xiong Research Group at ShanghaiTech!

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The Wireless and Smart Bio-electronics (WiSe) lab at ShanghaiTech is an interdisciplinary lab that seeks to develop bioelectronic tools and stimulus-driven materials to address the scientific and technical challenges faced by personal and clinical healthcare. Our research focuses on advanced stimulus-driven materials for bio-electronic signal communication and multimodal devices for sensing and stimulation. We integrate these technologies in bioelectronic systems to endow healthcare procedures with digital intelligence.   

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Contact us

Office: Room 510, School of Biomedical Engineering, 393 Middle Huaxia Road, Pudong, Shanghai, 201210

Email: xiongze@shanghaitech.edu.cn

Dec. 2022 The poster “A wireless and flexible infection sensing tag based on bio-inspired DNA hydrogel” won Best poster award,The 4th International Conference on Flexible Electronics.

​​Oct. 2022 The collaborative work on self-driven magnetorobots for scalable removal of micro/nanoplastics was accepted and highlighted by Science Advances.
Media Highlights:
People’s Daily, Link;
XinhuaNet,  Link;
ChinaDaily,  Link;
ECNS, Link;
China.org,  Link.

Apr. 2022 The collaborative work of digitally-embroidered liquid metal electronic textiles was published by Nature Communications.

​Nov. 2021 The work on wireless and battery-free wound infection monitoring enabled by DNA hydrogel was published by Science Advances.
Media Highlights:
AAAS, Nov. 2021, Wearable sensor detects wound infections before they are visible;
Reuters, Nov. 2021, Wearable sensor detects presymptomatic bacterial infections in diabetic foot ulcer swabs, mice;
Scientific American, Nov. 2021, Gel-based sensor continuously monitors wounds for infection;
AIChE, Jan. 2022, Wearable Sensor Provides Early Alert for Wound Infections;
STAT, Nov. 2021, A new, gel-based wearable can catch infections before the naked eye can;
Biospectrum, Nov. 2021, Singapore develops wound infection sensor based on DNA hydrogel;
Medical Xpress, Nov. 2021, A gel-based sensor that detects wound infections.

Oct. 2021 The work on wireless sensing (WiSe) sutures capable of directly monitoring deep surgical wounds was published by Nature Biomedical Engineering and selected as the cover work. News & Views, Nat. Biomed. Eng.​, Oct. 2021.

July. 2021 Our collaborative work on “wireless respiration monitoring using a flexible sensor and bistable circuit” won
​Best paper award (2nd Place),IEEE-EMBS International Conference on Wearable and Implantable Body Sensor Networks (BSN).

Nov. 2020 The oral presentation won Best Poster Award (2nd Place), 9th MRS-S Conference on Advanced Materials, 2020 (Selected as featured oral presentation , 3 out of 125 posters from MIT, Yale,  Penn State, EPFL, ETH, NIMS, NUS, NTU, A*STAR, SUTD etc.)

​Jun. 2020 The collaborative review of Nontransient Silk Bioelectronics was published by Small Methods.

​Mar. 2020 The work on highly-efficient and bio-compatible light-driven microrobot for potential biomedical applications was published by ACS Nano.

​Sep. 2019 The collaborative work of polyelectrolyte-coated microswimmer with advanced tolerance to ionic body fluid was published by Nature Communications.

​Sep. 2018 The review of light-driven micro/nanomotor as a promising biomedical tool was published by ​Accounts of Chemical Research.

Nov. 2017 The collaborative work of orthogonal visible-light-driven microswimmer was published by ​Nature Communications. 

​Oct. 2017 The work of electrochemical redox couple assisted graphene hybrid photodetector was published by NPG Asia Materials.

Jun. 2017 The work of light-driven silicon nanotor based on tunable photonic structures was published by Advanced Materials.

Oct. 2016 Our work of the first light-navigated micromotor was  published by ​Nature Nanotechnology.