Electromanipulation and electrical characterization of cancerous cells is becoming a topic of
high interest as the results reported to date demonstrate a good differentiation among …

Electroporation is a pulsed electric field triggered phenomenon of cell permeabilization,
which is extensively used in biomedical and biotechnological context. There is a growing …

Electroporation is a pulsed electric field (PEF) induced phenomenon, which effectiveness
varies dependent on pulse parameters. This work focuses on nano-electrochemotherapy …

A distributed circuit approach is used to simulate the development of electric potentials
across a cell membrane and the resulting poration dynamics for∼ 700 ns duration voltage …

In this work, we present a novel electroporator which is capable of generating single and
bursts of high power (3 kV, 60 A) square wave pulses of variable duration (100 ns to 1 ms) …

The detection of bacteria cells and their viability in food, water and clinical samples is critical
to bioscience research and biomedical practice. In this work, we present a microfluidic …

A general, self-consistent scheme for analyzing cellular electroporation for bio-medical
applications is developed to probe realistic biological shapes and different length scales …

Abstract Characterization of single-cell biophysical properties and cell type classification are
significant to study cytopathology, cell sorting, drug screening, etc. Existing methods usually …

The field of bioelectrics lies at the intersection of biomedical engineering, biophysics, pulsed
power technology, and bioscience, guided by the underlying theme of using electric pulses …

Moderate-to-profound sensorineural hearing loss in humans is treatable by electrically
stimulating the auditory nerve (AN) with a cochlear implant (CI). In the cochlea, the modiolus …