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Vinogradov Lab News

www.afm-journal.de © 2021 Wiley-VCH GmbH2104665  (1 of 16) Research Article An Anti-Freezing, Ambient-Stable and Highly Stretchable Ionic Skin with Strong Surface Adhesion for Wearable Sensing and Soft Robotics Binbin Ying, Ryan Zeyuan Chen, Runze Zuo, Jianyu Li, and Xinyu Liu* Natural living systems such as wood frogs develop tissues composed of active hydrogels with cryoprotectants to survive in cold environments. Recently, hydrogels have been intensively studied to develop

Wakeland Lab's Administration

0123456789();: The traditional paradigm for medical diagnostics, which is still actively practised around the globe, relies on physi­ cians’ use of their five basic senses to make inferences about a patient’s health1. For example, palpation through orifices such as the oral cavity, rectum or vaginal canal is still the predominant diagnostic mechanism within the digestive and female reproductive tracts2. Although inexpensive and straightforward, such subjective meth­ ods are prone to

Meet the Genomics team

www.advmatinterfaces.de 1901346  (1 of 10) © 2019 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim Full Paper A Nanocellulose-Paper-Based SERS Multiwell Plate with High Sensitivity and High Signal Homogeneity Longyan Chen, Binbin Ying, Pengfei Song, and Xinyu Liu* DOI: 10.1002/admi.201901346 1. Introduction Surface-enhanced Raman scattering (SERS) is one of the most attractive ana- lytical methods for label-free, high-sensi- tivity detection of biological and chemical analytes.[1–4] In SERS

Join Conzen Lab.

Ying et al., Sci. Transl. Med. 17, eadq1975 (2025) 26 February 2025 S c i e n c e T r a n s l at i o n a l M e d i c i n e | R e s e a r c h A r t i c l e 1 of 11 M E D I C A L D E V I C E S An electroadhesive hydrogel interface prolongs porcine gastrointestinal mucosal theranostics Binbin Ying1,2,3, Kewang Nan1,2,4, Qing Zhu5, Tom Khuu2, Hana Ro1, Sophia Qin3, Shubing Wang2, Karen Jiang1, Yonglin Chen2, Guangyu Bao6, Josh Jenkins1,3, Andrew Pettinari1,3, Johannes Kuosmanen1,3

In prior work, my laboratory focused on identifying novel mechanisms of therapy-resistance and progression in breast, prostate and ovarian cancer. 

Review Ingestible electronic capsules for in situ sensing of diverse biomarkers Chong Zhang,1,2,9 Hao Song,1,9 Junjie Zeng,1 Jian Chen,3 Chujun Ni,4 Ha Uk Chung,5 Kaichen Xu,6,* Binbin Ying,7,8,* and Kewang Nan1,2,3,* 1State Key Laboratory of Advanced Drug Delivery and Release Systems, School of Pharmacy, Zhejiang University, Hangzhou 310058, China 2Hangzhou Institute of Innovative Medicine, College of Pharmaceutical Sciences, Zhejiang University, Hangzhou 310058, China 3Department of