Contact: Michiel Pertijs
- Compact and power-efficient ultrasound front-ends
- Circuits for ultrasound signal processing and cable-count reduction
- In-probe digitization
- Integration of ultrasound transducer arrays on CMOS
- Catheter- and endoscope-based ultrasound probes
- Wearable ultrasound devices
Multimodal, multiresolution brain imaging
Developing a novel brain imaging paradigm combining functional ultrasound and EEG
Ultra-X-treme: Ultrafast Ultrasound Imaging for Extended Diagnosis and Treatment of Vascular Disease
The NWO Perspectief Programme Ultra-X-treme is a 4 Meuro programme in which 5 academic centers and 8 companies collaborate to develop patient-specific ultrasound-based techniques to diagnose and treat vascular disease
In this project, we will develop deep tissue needle-probes for multi-modal molecular imaging
Monitoring infant brain perfusion by trans-fontanel echography
In this project we will develop a device that uses 3D ultrasound to monitor brain perfusion in preterm infants.
Precision Ultrasonic Flow Meters using Matrix Transducers
In this project, we will develop a new class of clamp-on ultrasonic flow meters using matrix transducers
3D Intra-Cardiac Echography
In this project, novel transducers, integrated electronics and visualization methods will be developed that will enable real-time 3D ultrasound imaging at the tip of a catheter
Integrated Circuits for Intra-Vascular Ultrasound Imaging
In this project, we develop integrated circuits to enable the next generation of 3D intra-vascular ultrasound probes
Integrated Near Field sensOrs for high Resolution MicrowavE spectRoscopy
The goal of this project is the creation of a new class of sensors, enabling fast and accurate dielectric characterization of biological samples, with high-sensitivity and high-spatial resolution.
3D Plane-wave ultrasound matrix transducer for carotid artery diagnosis
In this project, we will develop a very powerful, three-dimensional (3D) ultrasound system for real-time imaging of the carotid arteries.
Ultrasound Integrated Patch for Medical Diagnostics
In this project, we will develop flexible, programmable transducer modules for ultrasound body patches
Miniature ultrasound probes for real-time 3D imaging and monitoring of cardiac interventions
This research project will enable the next generation of miniature ultrasound probes for real-time 3D transesophageal echocardiography, suitable for use in small children and newborns.
Perishables Monitoring through Smart Tracking of Lifetime and Quality by RFID
In this project, a wireless sensor platform has been developed to monitor the environmental conditions of perishable goods in the supply chain between producer and consumer.
Interfacing Resonant Sensors using Ringdown Measurement
The transient ring-down of resonant sensors is used to extract information about the sensor's resonance frequency and quality factor in a highly energy-efficient manner.
CMOS-Compatible Hot-Wire CO2 Sensors
In the project, we have developed CMOS-compatible CO2 sensors that detect the CO2-dependent heat loss of a suspended hot-wire transducer using dedicated precision readout electronics.
We have developed a wide variety of energy-efficient capacitance-to-digital converters for the readout of capacitive sensors
Yannick Hopf receives SSCS Predoctoral Achievement Award
At the 2023 ISSCC, Yannick Hopf was awarded a Predoctoral Achievement Award from the IEEE Solid-State Circuit Society.
- Junwei Guo
- Jie Dai
- Tianyi Liu
- Imad Bellouki
- Qiyi Ma
- Lai Wei
- Jixuan Mou (2022)
- Qian Wang (2022)
- Xin Ding (2021)
- Yixin Zhang (2021)
- Jianing Xing (2021)
- Vassiliy Shuverov (2021)
- Arvind Vijayakumar (2020)
- Jelle Tams (2020)
- Dayang Xiao (2020)
- Mengxin Yu (2019)
- Rishabh Nagarkar (2019)
- Qiyou Jiang (2019)
- Farzad Mirzaei (2018)
- Hao Fan (2017)
- Douwe van Willigen (2017)
- Michele D'Urbino (2017)
- Yixin Shi (2017)
- Magda Ursulean (2017)
- Wei Wu (2017)
- Weichen Xu (2017)