Shankar Dutt

Overview

Explore the profile of Shankar Dutt including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 8

Citations 9

Followers 0

Related Specialties

Chemistry

Biotechnology

Biophysics

Top 10 Co-Authors

Patrick Kluth

Christian Notthoff

Buddini I Karawdeniya

Alexander Kiy

Y M Nuwan D Y Bandara

Antonio Tricoli

Maria E Toimil-Molares

Pablo Mota-Santiago

Buddini Karawdeniya

Yapa Mndy Bandara

Published In

Phys Chem Chem Phys

Anal Chem

Small Methods

Future Sci OA

Langmuir

Affiliations

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Recent Articles

The Effect of Electrolyte Properties on Ionic Transport through Solid-State Nanopores: Experiment and Simulation

Kiy A, Dutt S, Gregory K, Notthoff C, Toimil-Molares M, Kluth P

Langmuir . 2024 Sep; 40(40):20888-20896. PMID: 39317436

Nanopore membranes enable versatile technologies that are employed in many different applications, ranging from clean energy generation to filtration and sensing. Improving the performance can be achieved by conducting numerical...

A Robust Parallel Computing Data Extraction Framework for Nanopore Experiments

Bandara Y, Dutt S, Karawdeniya B, Saharia J, Kluth P, Tricoli A

Small Methods . 2024 Jul; 8(12):e2400045. PMID: 38967324

The success of a nanopore experiment relies not only on the quality of the experimental design but also on the performance of the analysis program utilized to decipher the ionic...

Nanopore sensing and machine learning: future of biomarker analysis and disease detection

Dutt S, Karawdeniya B, Bandara Y, Kluth P

Future Sci OA . 2024 May; 10(1):2340882. PMID: 38817373

No abstract available.

Nanopore Fabrication Made Easy: A Portable, Affordable Microcontroller-Assisted Approach for Tailored Pore Formation via Controlled Breakdown

Bandara Y, Karawdeniya B, Dutt S, Kluth P, Tricoli A

Anal Chem . 2024 Jan; 96(5):2124-2134. PMID: 38277343

With growing interest in solid-state nanopore sensing─a single-molecule technique capable of profiling a host of analyte classes─establishing facile and scalable approaches for fabricating molecular-size pores is becoming increasingly important. The...

High Accuracy Protein Identification: Fusion of Solid-State Nanopore Sensing and Machine Learning

Dutt S, Shao H, Karawdeniya B, Bandara Y, Daskalaki E, Suominen H, et al.

Small Methods . 2023 Sep; 7(11):e2300676. PMID: 37718979

Proteins are arguably one of the most important class of biomarkers for health diagnostic purposes. Label-free solid-state nanopore sensing is a versatile technique for sensing and analyzing biomolecules such as...

Ultrathin, High-Lifetime Silicon Nitride Membranes for Nanopore Sensing

Dutt S, Karawdeniya B, Bandara Y, Afrin N, Kluth P

Anal Chem . 2023 Mar; 95(13):5754-5763. PMID: 36930050

Thin membranes are highly sought-after for nanopore-based single-molecule sensing, and fabrication of such membranes becomes challenging in the ≲10 nm thickness regime where a plethora of useful molecule information can...

SAXS data modelling for the characterisation of ion tracks in polymers

Wang X, Dutt S, Notthoff C, Kiy A, Mota-Santiago P, Mudie S, et al.

Phys Chem Chem Phys . 2022 Apr; 24(16):9345-9359. PMID: 35383785

Here, we present new models to fit small angle X-ray scattering (SAXS) data for the characterization of ion tracks in polymers. Ion tracks in polyethylene terephthalate (PET), polycarbonate (PC), polyimide...

Ion track etching of polycarbonate membranes monitored by small angle X-ray scattering

Kiy A, Notthoff C, Dutt S, Grigg M, Hadley A, Mota-Santiago P, et al.

Phys Chem Chem Phys . 2021 Jun; 23(26):14231-14241. PMID: 34159988

In situ small angle X-ray scattering (SAXS) measurements of ion track etching in polycarbonate foils are used to directly monitor the selective dissolution of ion tracks with high precision, including...