Understanding and modelling the magnitude of the change in current of nanopore sensors
Nanopores are promising sensing devices that can be used for the detection of analytes at
the single molecule level. It is of importance to understand and model the current response …
the single molecule level. It is of importance to understand and model the current response …
Multiscale simulations of nanofluidics: Recent progress and perspective
C Xie, H Li - Wiley Interdisciplinary Reviews: Computational …, 2023 - Wiley Online Library
Nanofluidics research has achieved a significant growth over the past few years. New
phenomena of nanoscaled fluid flows are being reported continuously, such as altered …
phenomena of nanoscaled fluid flows are being reported continuously, such as altered …
Understanding the giant gap between single‐pore‐and membrane‐based nanofluidic osmotic power generators
Nanofluidic blue energy harvesting attracts great interest due to its high power density and
easy‐to‐implement nature. Proof‐of‐concept studies on single‐pore platforms show that the …
easy‐to‐implement nature. Proof‐of‐concept studies on single‐pore platforms show that the …
Modulation of ionic current rectification in ultrashort conical nanopores
Nanopores that exhibit ionic current rectification (ICR) behave like diodes such that they
transport ions more efficiently in one direction than in the other. Conical nanopores have …
transport ions more efficiently in one direction than in the other. Conical nanopores have …
Effective charged exterior surfaces for enhanced ionic diffusion through nanopores under salt gradients
L Ma, X An, F Song, Y Qiu - The Journal of Physical Chemistry …, 2022 - ACS Publications
High-performance osmotic energy conversion requires both large ionic throughput and high
ionic selectivity, which can be significantly promoted by exterior surface charges …
ionic selectivity, which can be significantly promoted by exterior surface charges …
Modulation mechanism of ionic transport through short nanopores by charged exterior surfaces
Short nanopores have various applications in biosensing, desalination, and energy
conversion. Here, the modulation of ionic transport by charged exterior surfaces is …
conversion. Here, the modulation of ionic transport by charged exterior surfaces is …
Surface charge regulated asymmetric ion transport in nanoconfined space
The asymmetric ion transport in the nanoconfined space, similar to that of natural ion
channels, has attracted broad interest in sensor, energy conversion, and other related fields …
channels, has attracted broad interest in sensor, energy conversion, and other related fields …
Ionotronics based on horizontally aligned carbon nanotubes
Controlled ion transport through ion channels of cell membranes regulates signal
transduction processes in biological systems and has also inspired the thriving development …
transduction processes in biological systems and has also inspired the thriving development …
Understanding carbon nanotube‐based ionic diodes: design and mechanism
The rectification of ion transport through biological ion channels has attracted much attention
and inspired the thriving invention and applications of ionic diodes. However, the …
and inspired the thriving invention and applications of ionic diodes. However, the …
On rectification of ionic current in nanopores
Rectification of ionic current, a frequently observed phenomenon with asymmetric
nanopores varying in geometry and/or surface charge, has been utilized for studies of …
nanopores varying in geometry and/or surface charge, has been utilized for studies of …