Lab-on-a-chip Platforms for Single Zoospore, Fungal and Oomycete Studies (2021)
CitationSun Y, Tayagui A, Garrill A, Nock V (2021). Lab-on-a-chip Platforms for Single Zoospore, Fungal and Oomycete Studies. Rotorao, New Zealand: MacDiarmid Institute Annual Symposium. 09/02/2021-12/02/2021.
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ANZSRC Fields of Research31 - Biological sciences::3107 - Microbiology::310705 - Mycology
40 - Engineering::4012 - Fluid mechanics and thermal engineering::401210 - Microfluidics and nanofluidics
40 - Engineering::4009 - Electronics, sensors and digital hardware::400908 - Microelectronics
40 - Engineering::4017 - Mechanical engineering::401705 - Microelectromechanical systems (MEMS)
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Showing items related by title, author, creator and subject.
Sarkar D; Sun Y; Tayagui A; Adams R; Garrill A; Nock, Volker (IEEE, 2022)This paper reports the fabrication and application of a microfluidic Lab-on-a-Chip platform to study the electrotactic movements of pathogenic microorganisms. The movement of the pathogens in response to electric fields ...
A monolithic polydimethylsiloxane platform for zoospore Capture, germination and single hypha force sensing TAYAGUI, AYELEN BETSABE; Sun, Yiling; Nock, Volker; Garrill, Ashley (IEEE, 2019)This paper reports a triple-layer, polydimethylsiloxane (PDMS)-based lab-on-a-chip platform combining the capture and culture of individual oomycete zoospores with integrated force sensing on germinated hyphae. The platform ...
Cheradame N; Calius E; Meffan, Robert Claude; Sellier, Mathieu; Nock, Volker (IEEE, 2019)This paper reports an alternating current (AC) thermal flow sensor, based on the 3ω method, capable of measuring fluid flow in stacked microfluidic channels and through separating membranes. The measurement concept is ...