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Mengdi Han Research Group
Lab of Micromechanical Bioelectronics
(韩梦迪课题组 微机械生物电子实验室)
* HOME
* RESEARCH
* OVERVIEW
* ELECTRONIC SKIN
* WIRELESS BIOSENSOR
* MICROROBOTICS
* GROUP
* CURRENT
* ALUMNI
* PUBLICATIONS
* 2024
* 2023
* 2022
* 2021
* 2020
* 2010s
* COVERS
* FULL LIST
* NEWS
* 2024
* 2023
* 2022
* 2021
* 2020
* CONTACT
* JOIN US
* …
* HOME
* RESEARCH
* OVERVIEW
* ELECTRONIC SKIN
* WIRELESS BIOSENSOR
* MICROROBOTICS
* GROUP
* CURRENT
* ALUMNI
* PUBLICATIONS
* 2024
* 2023
* 2022
* 2021
* 2020
* 2010s
* COVERS
* FULL LIST
* NEWS
* 2024
* 2023
* 2022
* 2021
* 2020
* CONTACT
* JOIN US
Mengdi Han Research Group
Lab of Micromechanical Bioelectronics
(韩梦迪课题组 微机械生物电子实验室)
* HOME
* RESEARCH
* OVERVIEW
* ELECTRONIC SKIN
* WIRELESS BIOSENSOR
* MICROROBOTICS
* GROUP
* CURRENT
* ALUMNI
* PUBLICATIONS
* 2024
* 2023
* 2022
* 2021
* 2020
* 2010s
* COVERS
* FULL LIST
* NEWS
* 2024
* 2023
* 2022
* 2021
* 2020
* CONTACT
* JOIN US
* …
* HOME
* RESEARCH
* OVERVIEW
* ELECTRONIC SKIN
* WIRELESS BIOSENSOR
* MICROROBOTICS
* GROUP
* CURRENT
* ALUMNI
* PUBLICATIONS
* 2024
* 2023
* 2022
* 2021
* 2020
* 2010s
* COVERS
* FULL LIST
* NEWS
* 2024
* 2023
* 2022
* 2021
* 2020
* CONTACT
* JOIN US
Mengdi Han Research Group
Lab of Micromechanical Bioelectronics
(韩梦迪课题组 微机械生物电子实验室)
*
* OUR MISSION
Our group aims to develop and build bioelectronics with 3D architectures. The
resulting 3D bioelectronics can form conformal interfaces with soft,
curvilinear biological tissues, and enable new modalities in diagnosis and
therapy. We exploit these 3D bioelectronic devices and systems as tools to
understand fundamental biological questions and improve human health.
OPEN POSITIONS
We are looking for talented and motivated postdoctoral fellows, Ph.D.
students, and undergrads to join us. Click HERE for details.
RECENT HIGHLIGHTS
* 3D MICRO STRAIN GAUGE
SCI. ADV. 2024
Electronic skin based on 3D micro strain gauges can measure tri-axial forces
and other parameters.
SUBMILLIMETER WALKING ROBOT
SCI. ROBOT. 2022
Submillimeter-scale robots developed from shape memory alloys can be actuated
by a laser to permit terrestrial locomotion.
'INSTRUMENTED' BALLOON CATHETER
NAT. BIOMED. ENG. 2020
Endocardial balloon catheters fitted with soft multilayer electronic arrays
for multiplexed high-density spatiotemporal sensing and actuation.
3D PIEZOELECTRIC MICROSYSTEMS
NAT. ELECTRON. 2019
Piezoelectric microsystems configured in 3D format for applications in energy
harvesting, robotic prosthetic interfaces and biomedical implants.
BATTERY-LESS MAGNETIC IMPLANTS
SCI. ADV. 2024
Magnetic implants can pair with a miniaturized wearable device for wireless
biophysical and biochemical sensing.
MAGNETIC ROBOTIC STRUCTURES
ADV. MATER. 2021
Three-dimensional soft structures can exhibit a variety of tethered
locomotion under the precise control of external magnetic fields.
SOFT 3D SENSORS FOR PROSTHESIS
SCI. TRANS. MED. 2020
Wireless, soft sensors based on three-dimensional structures for continuous
monitoring of pressure at the skin-prosthesis interface.
TRANSFER PRINTING OF 3D STRUCTURES
PROC. NATL. ACAD. SCI. 2017
3D mesostructures in fully or partially freestanding forms as scaffolds for
growth, recording, and stimulation of neural networks.
Copyright © 2021 Mengdi Han Research Group - All Rights Reserved
京ICP备2021005752号-1
Mengdi Han Research Group
Mengdi Han Research Group, 韩梦迪课题组 Department of Biomedical Engineering, College
of Future Technology, Peking University
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