JoVE Logo
Autorzy
Skontaktuj Się z Nami

Zaloguj się

Fabrication and Characterization of Thickness Mode Piezoelectric Devices for Atomization and Acoustofluidics

6.8K Views

10:39 min

August 5th, 2020

DOI :

10.3791/61015-v

August 5th, 2020

1Medically Advanced Devices Laboratory, Center for Medical Devices, Department of Mechanical and Aerospace Engineering, Jacobs School of Engineering and Department of Surgery, School of Medicine, University of California San Diego, 2Department of Surgery, School of Medicine, University of California San Diego

Przeglądaj więcej filmów

Thickness Mode
Piezoelectric Devices
Atomization
Acoustofluidics
Resonance Frequency
Vibration Amplitude
Transducers
Drug Atomization
Respiratory Diseases
Capillary Waves
Impedance Analysis
Network Analyzer
LDV Characterization
Vibration Measurement
Signal Generator

Rozdziały w tym wideo

0:04

Introduction

1:03

Electrical and Mechanical Transducer Contact

1:48

Resonance Frequency Identication

2:26

Vibration Characterization

4:02

Fluid Supply System Fabrication

5:21

Dynamics Observation

6:33

Droplet Size Measurement

9:01

RESULTS: Representative Device Characterization

9:53

Conclusion

Powiązane Filmy

article

12:26

Fabrication, Operation and Flow Visualization in Surface-acoustic-wave-driven Acoustic-counterflow Microfluidics

17.0K Views

article

09:10

Fabrication and Testing of Microfluidic Optomechanical Oscillators

12.1K Views

article

09:21

Experiments on Ultrasonic Lubrication Using a Piezoelectrically-assisted Tribometer and Optical Profilometer

12.5K Views

article

10:14

Fabrication and Operation of Acoustofluidic Devices Supporting Bulk Acoustic Standing Waves for Sheathless Focusing of Particles

12.7K Views

article

11:32

A Microfluidic Platform for Precision Small-volume Sample Processing and Its Use to Size Separate Biological Particles with an Acoustic Microdevice

13.7K Views

article

09:51

A Polymer-based Piezoelectric Vibration Energy Harvester with a 3D Meshed-Core Structure

25.2K Views

article

07:23

Fabrication of Nanoheight Channels Incorporating Surface Acoustic Wave Actuation via Lithium Niobate for Acoustic Nanofluidics

5.7K Views

article

07:55

Fabrication of Surface Acoustic Wave Devices on Lithium Niobate

11.7K Views

article

11:34

Epitaxial Nanostructured α-Quartz Films on Silicon: From the Material to New Devices

5.3K Views

article

08:06

Enhancement Method of Surface Acoustic Wave-Atomizer Efficiency for Olfactory Display

8.0K Views

JoVE Logo

Prywatność

Warunki Korzystania

Zasady

Skontaktuj Się z Nami

Poleć Bibliotece

BIULETYNY JoVE

Badania

Edukacja

Autorzy

Bibliotekarze

O JoVE

Copyright © 2025 MyJoVE Corporation. Wszelkie prawa zastrzeżone