Concurrent users
Unlimited
Authorized users
Authorized users
Document Delivery Supplied
Can lend chapters, not whole ebooks
Title
Solid state nanopores : from fabrication to biosensing / Jean-Pierre Leburton, editor.
ISBN
9783031423369 (electronic bk.)
3031423364 (electronic bk.)
9783031423352 (print)
3031423356
Published
Cham, Switzerland : Springer, 2023.
Language
English
Description
1 online resource (vii, 231 pages) : illustrations (some color).
Item Number
10.1007/978-3-031-42336-9 doi
Call Number
TA418.9.N35
Dewey Decimal Classification
620.1/16
Summary
This contributed volume provides an overview of the recent advances in solid-state nanopore technology, featuring contributions by leading experts in the field. It discusses several aspects of solid-state nanopores, covering their fabrication as well as multiple biosensing applications. It successfully bridges the gap between various scientific and engineering disciplines and highlights the progress made in this area. This title is a useful tool for acquiring basic knowledge of this field and following recent progress. It is a valuable contribution to the area of nanopore biosensing and is of interest to graduate students, postdocs, or senior researchers working in the fields of physical chemistry, biochemistry, bio- and electrical engineering, and biophysics.
Note
Includes index.
Access Note
Access limited to authorized users.
Source of Description
Online resource; title from PDF title page (SpringerLink, viewed October 5, 2023).
Series
Nanostructure science and technology, 2197-7976
Available in Other Form
Print version: 9783031423352
Fabricating Solid-State Nanopores for Single-Molecule Sensing
Emerging Abnormal Phenomena in Confined Nanofluidics
Detecting DNA-binding Sites of Regulation Proteins with Ion Beam Sculpted Silicon Nitride Nanopores
Solid-State Nanopore Sensing Enhanced by Designed DNA Nanostructures
Protein Profiling by a Confined Nanopore
Self-Consistent Brownian Dynamics Simulations of the Ionic Current Blockade in Solid State Nanopores
Modeling Ionic and Electronic Biosensing with Semiconductor Nanopores.
