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Bio-Hybrid AFM Probe with Mosquito Labrum for Studying Biting Behaviors
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Author Spotlight: Development of Bio-Hybrid AFM Cantilevers for Quantitative Analysis of Mosquito Biting Mechanisms
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JoVE Journal Ingenieurwesen
Development of a Bio-Hybrid Mosquito Stinger-Based Atomic Force Microscopy Probe

Author Spotlight: Development of Bio-Hybrid AFM Cantilevers for Quantitative Analysis of Mosquito Biting Mechanisms

Bio-Hybrid AFM Probe with Mosquito Labrum for Studying Biting Behaviors

DOI:
10.3791/66675-v

01:01 min

April 26, 2024

, , , ,
1Department of Mechanical Engineering,McGill University

Tags

Bio-hybridMosquitoStingerAtomic Force MicroscopyAFM ProbeBiting MechanismQuantitative StudyVector-borne DiseasesPublic HealthPreventionMosquito ResistanceControllable TestingRealistic Testing Scenarios

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Author Spotlight: Development of Bio-Hybrid AFM Cantilevers for Quantitative Analysis of Mosquito Biting Mechanisms

Dissection of the Labium and Separation of the Labrum's Tip for Fabricating an Atomic Force Microscopy Probe

Isolation of the Desired Labrum Tip for Preparing the Atomic Force Microscopy Probe

Mounting and Bonding the Labrum's Tip to the Atomic Force Microscopy (AFM) Tipless Cantilever Beam

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