Assessment of 1/ f noise associated with nanopores fabricated through chemically tuned controlled dielectric breakdown-Reference-Cited by-同舟云学术

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Assessment of 1/ f noise associated with nanopores fabricated through chemically tuned controlled dielectric breakdown

Published:2021-01-06 Issue:7-8 Volume:42 Page:899-909
ISSN:0173-0835
Container-title:ELECTROPHORESIS
language:en
Short-container-title:ELECTROPHORESIS

Author:

Saharia Jugal¹,Bandara Y. M. Nuwan D. Y.¹,Karawdeniya Buddini I.¹,Alexandrakis George²,Kim Min Jun¹^ORCID

Affiliation:

1. Department of Mechanical Engineering Southern Methodist University Dallas TX USA

2. Department of Bioengineering University of Texas Arlington TX USA

Funder

National Science Foundation

National Institutes of Health

Publisher

Wiley

Subject

Clinical Biochemistry,Biochemistry,Analytical Chemistry

Link

https://onlinelibrary.wiley.com/doi/pdf/10.1002/elps.202000285

Reference52 articles.

1. Single-molecule protein sensing in a nanopore: a tutorial

2. Molecular-Level Profiling of Human Serum Transferrin Protein through Assessment of Nanopore-Based Electrical and Chemical Responsiveness

3. Surveying silicon nitride nanopores for glycomics and heparin quality assurance

4. Identification of single nucleotides in MoS2 nanopores

5. Challenging Nanopores with Analyte Scope and Environment

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1. Fast Fabrication Nanopores on a PMMA Membrane by a Local High Electric Field Controlled Breakdown;Sensors;2024-03-26

2. Real-time monitoring of Ti(IV) metal ion binding of transferrin using a solid-state nanopore;The Journal of Chemical Physics;2024-01-26

3. Low-frequency flicker noise in stochastic ionic transport across atomically thin graphene nanopores;Cell Reports Physical Science;2023-01

4. Use of a solid‐state nanopore for profiling the transferrin receptor protein and distinguishing between transferrin receptor and its ligand protein;ELECTROPHORESIS;2022-12

5. Investigating protein translocation in the presence of an electrolyte concentration gradient across a solid‐state nanopore;ELECTROPHORESIS;2022-01-22

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