Eight of our team's works were accepted by IEEE MEMS 2025. Below are the details of these works.
|
TITLE |
FIRST AUTHOR |
|
|
BONE-SHAPE PMUTS WITH ENHANCED BANDWIDTH FOR DOPPLER BLOOD FLOW DETECTION |
Kai Yang |
|
|
TWO-DIMENSIONAL ULTRASOUND IMAGING USING SINGLE TRANSDUCER PIXEL BASED ON SPATIAL-SPECTRUM CORRELATION METHOD |
Jinghan Gan |
|
|
REAL-TIME DIFFERENTIAL ULTRASONIC FLOW SENSING ENABLED BY PMUT PHASED ARRAY WITH A NOVEL V-SHAPED BEAM PATTERN |
Yufeng Gao |
|
|
LIQUID VISCOSITY DETECTION BASED ON HARMONIC-ENGINEERING AND DUAL-FREQUENCY ULTRASONIC TRANSDUCER ARRAYS |
Ji‘ao Xia |
|
|
PIEZOELECTRIC ACOUSTIC PRESSURE SENSORS WITH ENHANCED SENSITIVITY AND STIFFNESS BASED ON STRESS CONCENTRATION STRUCTURES AND WEDGE-SHAPE ELECTRODES |
Zhiwei You |
|
|
SURFACE INSPECTION OF LIQUID AND ICE LAYERS USING A WIDE-BANDWIDTH AND HIGHLY DIRECTIONAL ULTRASONIC TRANSDUCER |
Junhao Wang |
|
|
MINIATURE AND WIRELESS ULTRASONIC IMAGING SYSTEM FOR WEARABLE HUMAN CAROTID ARTERY HEALTH MONITORING |
Lei Zhao |
|
|
AN ULTRASONIC WIRELESS POWER TRANSMISSION SYSTEM WITH HIGH CONVERSION EFFICIENCY BASED ON 30% ScAlN PIEZOELECTRIC MEMS TRANSDUCERS |
Chenyuan Zhang |
|