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Her current research focuses on creating nanoelectromechanical systems to study the mechanotransduction mechanisms in biological and artificial nanopores at single-molecule level. Her team develops lab-on-chip devices that integrate acoustic tweezers and nanopore technology to spatially and temporally manipulate mechanosensitive nanostructures in biomimetic membranes. The aim is to generate scalable and contact-free nanofluidic platforms to monitor both the transport properties and the dynamic response of biomolecules to applied forces. Such actuation and detection schemes can have important implications for molecular diagnostics by enabling screening of compounds that inhibit or promote protein function in real time. The group also uses a combination of solid state nanotechnology and bioactive components to design biomimetic nanopores with increased functionality that could find applications in nanomedicine as drug delivery systems for disease treatment.
研究兴趣
论文共 28 篇作者统计合作学者相似作者
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Xiliang Yang,Dong Hoon Shin, Ze Yu,Kenji Watanabe,Takashi Taniguchi, Vitaliy Babenko,Stephan Hofmann,Sabina Caneva
CHEMNANOMAT (2024)
Ze Yu, Anna V. Baptist, Susanne C. M. Reinhardt,Eva Bertosin,Cees Dekker,Ralf Jungmann,Amelie Heuer-Jungemann,Sabina Caneva
biorxiv(2024)
biorxiv(2023)
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Bruno Dlubak, V. Zatko, S. M.-M. Dubois, M. Galbiati, J. Peiro,F. Godel,M. Piquemal-Banci,R. Galceran, C. Carretero, S. Collin, A. Vecchiola, K. Bouzehouane,
HardwareX (2023): e00428-e00428
ACCOUNTS OF MATERIALS RESEARCHno. 4 (2023): 307-310
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