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Main Authors: Pospelov, O., Herus, A., Savytskyi, A., Vakula, V., Sakhnenko, M., Kalashnyk, N., Faulques, E., Kamarchuk, G.
Format: Preprint
Published: 2026
Subjects:
Online Access:https://arxiv.org/abs/2603.14140
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author Pospelov, O.
Herus, A.
Savytskyi, A.
Vakula, V.
Sakhnenko, M.
Kalashnyk, N.
Faulques, E.
Kamarchuk, G.
author_facet Pospelov, O.
Herus, A.
Savytskyi, A.
Vakula, V.
Sakhnenko, M.
Kalashnyk, N.
Faulques, E.
Kamarchuk, G.
contents The primary objective of research in modern sensor technologies is to develop innovative detection methods for the rapid analysis of complex molecular systems. The present work demonstrates that the quantum mechanism of selective detection, based on conductance quantization, can be effectively employed to create a universal method for detecting a broad spectrum of agents in liquid media, including heavy metals and organic solvents. The efficacy of this approach is illustrated through the use of quantum point-contact sensors, which utilize dendritic Yanson point contacts undergoing quantum transformations during the cyclic switchover effect. These sensors have proven capable of detecting copper, zinc, and lead ions in liquid media across a wide range of concentrations, including trace levels as low as a few parts per billion (ppb). Furthermore, they can identify organic solvents, as demonstrated with acetic acid. The use of innovative quantum detection principles paves the way for the development of a comprehensive array of next-generation devices, offering promising solutions for advanced environmental monitoring applications.
format Preprint
id arxiv_https___arxiv_org_abs_2603_14140
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Universal method of selective detection of a wide range of pollutants in liquids using conductance quantization
Pospelov, O.
Herus, A.
Savytskyi, A.
Vakula, V.
Sakhnenko, M.
Kalashnyk, N.
Faulques, E.
Kamarchuk, G.
Instrumentation and Detectors
Chemical Physics
The primary objective of research in modern sensor technologies is to develop innovative detection methods for the rapid analysis of complex molecular systems. The present work demonstrates that the quantum mechanism of selective detection, based on conductance quantization, can be effectively employed to create a universal method for detecting a broad spectrum of agents in liquid media, including heavy metals and organic solvents. The efficacy of this approach is illustrated through the use of quantum point-contact sensors, which utilize dendritic Yanson point contacts undergoing quantum transformations during the cyclic switchover effect. These sensors have proven capable of detecting copper, zinc, and lead ions in liquid media across a wide range of concentrations, including trace levels as low as a few parts per billion (ppb). Furthermore, they can identify organic solvents, as demonstrated with acetic acid. The use of innovative quantum detection principles paves the way for the development of a comprehensive array of next-generation devices, offering promising solutions for advanced environmental monitoring applications.
title Universal method of selective detection of a wide range of pollutants in liquids using conductance quantization
topic Instrumentation and Detectors
Chemical Physics
url https://arxiv.org/abs/2603.14140