Fluids and electrolytes under confinement in single-digit nanopores
Confined fluids and electrolyte solutions in nanopores exhibit rich and surprising physics
and chemistry that impact the mass transport and energy efficiency in many important …
and chemistry that impact the mass transport and energy efficiency in many important …
[HTML][HTML] Scalable molecular dynamics on CPU and GPU architectures with NAMD
NAMD is a molecular dynamics program designed for high-performance simulations of very
large biological objects on CPU-and GPU-based architectures. NAMD offers scalable …
large biological objects on CPU-and GPU-based architectures. NAMD offers scalable …
Review of nanomembranes: Materials, fabrications and applications in tissue engineering (bone and skin) and drug delivery systems
U Ciganė, A Palevičius, G Janušas - Journal of Materials Science, 2021 - Springer
Nanomembrane is an independent structure with a thickness of 1–100 nm and with much
large lateral dimensions. Due to the unique properties of nanomembranes, research on the …
large lateral dimensions. Due to the unique properties of nanomembranes, research on the …
Wrapping nanocellulose nets around graphene oxide sheets
Constructing advanced functional nanomaterials with pre‐designed organized
morphologies from low‐dimension synthetic and biological components is challenging …
morphologies from low‐dimension synthetic and biological components is challenging …
Deciphering ionic current signatures of DNA transport through a nanopore
A Aksimentiev - Nanoscale, 2010 - pubs.rsc.org
Within just a decade from the pioneering work demonstrating the utility of nanopores for
molecular sensing, nanopores have emerged as versatile systems for single-molecule …
molecular sensing, nanopores have emerged as versatile systems for single-molecule …
Graphene nanopores for protein sequencing
J Wilson, L Sloman, Z He, A Aksimentiev - Biophysical Journal, 2016 - cell.com
An inexpensive, reliable method for protein sequencing is essential to unraveling the
biological mechanisms governing cellular behavior and disease. Current protein …
biological mechanisms governing cellular behavior and disease. Current protein …
Slowing DNA transport using graphene–DNA interactions
Slowing down DNA translocation speed in a nanopore is essential to ensuring reliable
resolution of individual bases. Thin membrane materials enhance spatial resolution but …
resolution of individual bases. Thin membrane materials enhance spatial resolution but …
Conformational transitions and stop-and-go nanopore transport of single-stranded DNA on charged graphene
M Shankla, A Aksimentiev - Nature communications, 2014 - nature.com
Control over interactions with biomolecules holds the key to applications of graphene in
biotechnology. One such application is nanopore sequencing, where a DNA molecule is …
biotechnology. One such application is nanopore sequencing, where a DNA molecule is …
Rapid and accurate determination of nanopore ionic current using a steric exclusion model
Nanopore sensing has emerged as a versatile approach to detection and identification of
biomolecules. Presently, researchers rely on experience and intuition for choosing or …
biomolecules. Presently, researchers rely on experience and intuition for choosing or …
Slowing down single-molecule trafficking through a protein nanopore reveals intermediates for peptide translocation
The microscopic details of how peptides translocate one at a time through nanopores are
crucial determinants for transport through membrane pores and important in developing …
crucial determinants for transport through membrane pores and important in developing …