Electrochemical and Electrical Biosensors for Wearable and Implantable Electronics Based on Conducting Polymers and Carbon-Based Materials
Bioelectronic devices are designed to translate biological information into electrical signals
and vice versa, thereby bridging the gap between the living biological world and electronic …
and vice versa, thereby bridging the gap between the living biological world and electronic …
Bubbles in microfluidics: An all-purpose tool for micromanipulation
In recent decades, the integration of microfluidic devices and multiple actuation technologies
at the microscale has greatly contributed to the progress of related fields. In particular …
at the microscale has greatly contributed to the progress of related fields. In particular …
Tomographic imaging flow cytometry
Within the last decades, conventional flow cytometry (FC) has evolved as a powerful
measurement method in clinical diagnostics, biology, life sciences and healthcare. Imaging …
measurement method in clinical diagnostics, biology, life sciences and healthcare. Imaging …
3D cell electrorotation and imaging for measuring multiple cellular biophysical properties
L Huang, P Zhao, W Wang - Lab on a Chip, 2018 - pubs.rsc.org
3D rotation is one of many fundamental manipulations to cells and imperative in a wide
range of applications in single cell analysis involving biology, chemistry, physics and …
range of applications in single cell analysis involving biology, chemistry, physics and …
On-chip integrated optical stretching and electrorotation enabling single-cell biophysical analysis
Cells have different intrinsic markers such as mechanical and electrical properties, which
may be used as specific characteristics. Here, we present a microfluidic chip configured with …
may be used as specific characteristics. Here, we present a microfluidic chip configured with …
On-chip 3D rotation of oocyte based on a vibration-induced local whirling flow
We propose a novel on-chip 3D cell rotation method based on a vibration-induced flow.
When circular vibration is applied to a microchip with micropillar patterns, a highly localized …
When circular vibration is applied to a microchip with micropillar patterns, a highly localized …
[HTML][HTML] Rotation of biological cells: fundamentals and applications
Cell rotation is one of the most important techniques for cell manipulation in modern
bioscience, as it not only permits cell observation from any arbitrary angle, but also simplifies …
bioscience, as it not only permits cell observation from any arbitrary angle, but also simplifies …
Three-dimensional rotation of deformable cells at a bipolar electrode array using a rotating electric field
Y Wu, Y Yue, H Zhang, X Ma, Z Zhang, K Li, Y Meng… - Lab on a Chip, 2024 - pubs.rsc.org
Three-dimensional rotation of cells is imperative in a variety of applications such as biology,
medicine, and chemistry. We report for the first time a versatile approach for executing …
medicine, and chemistry. We report for the first time a versatile approach for executing …
Fabrication of conducting polymer microelectrodes and microstructures for bioelectronics
P Zhang, J Travas-Sejdic - Journal of Materials Chemistry C, 2021 - pubs.rsc.org
Conducting polymers (CPs) are emerging as one of the most promising functional materials
for bioelectronics and biointerfaces due to their high biocompatibility, intrinsic electrical and …
for bioelectronics and biointerfaces due to their high biocompatibility, intrinsic electrical and …
A microfluidic device enabling high-efficiency single cell trapping
D Jin, B Deng, JX Li, W Cai, L Tu, J Chen, Q Wu… - …, 2015 - pubs.aip.org
Single cell trapping increasingly serves as a key manipulation technique in single cell
analysis for many cutting-edge cell studies. Due to their inherent advantages, microfluidic …
analysis for many cutting-edge cell studies. Due to their inherent advantages, microfluidic …