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Nanotubes tethered laccase biosensor for sensing of chlorophenol substances. / Kaya, S.I.; Corman, M.E.; Cetinkaya, A. et al.
Sensing of Deadly Toxic Chemical Warfare Agents, Nerve Agent Simulants, and their Toxicological Aspects. ed. / Sangita Das; Sabu Thomas; Partha Pratim Das. Elsevier, 2022. p. 331-356.
Research output: Contribution in Book/Report/Proceedings - With ISBN/ISSN › Chapter
Harvard
Kaya, SI, Corman, ME, Cetinkaya, A
, Karasu, T, Uzun, L & Ozkan, SA 2022,
Nanotubes tethered laccase biosensor for sensing of chlorophenol substances. in S Das, S Thomas & PP Das (eds),
Sensing of Deadly Toxic Chemical Warfare Agents, Nerve Agent Simulants, and their Toxicological Aspects. Elsevier, pp. 331-356.
https://doi.org/10.1016/B978-0-323-90553-4.00008-1APA
Kaya, S. I., Corman, M. E., Cetinkaya, A.
, Karasu, T., Uzun, L., & Ozkan, S. A. (2022).
Nanotubes tethered laccase biosensor for sensing of chlorophenol substances. In S. Das, S. Thomas, & P. P. Das (Eds.),
Sensing of Deadly Toxic Chemical Warfare Agents, Nerve Agent Simulants, and their Toxicological Aspects (pp. 331-356). Elsevier.
https://doi.org/10.1016/B978-0-323-90553-4.00008-1Vancouver
Kaya SI, Corman ME, Cetinkaya A
, Karasu T, Uzun L, Ozkan SA.
Nanotubes tethered laccase biosensor for sensing of chlorophenol substances. In Das S, Thomas S, Das PP, editors, Sensing of Deadly Toxic Chemical Warfare Agents, Nerve Agent Simulants, and their Toxicological Aspects. Elsevier. 2022. p. 331-356 doi: 10.1016/B978-0-323-90553-4.00008-1
Author
Bibtex
@inbook{a2473f2e8c2e42789d3a56ec43405753,
title = "Nanotubes tethered laccase biosensor for sensing of chlorophenol substances",
abstract = "Increasing population density and technological developments resulted in an increase of chlorophenols (CPs) that have been identified as emerging contaminants. CPs can take several routes into the environment, such as industrial waste, pesticides, insecticides, and degradation of complex chlorinated hydrocarbons. CPs have a potential hazard to environmental sources and cause long-term exposure for animals and humans. Determination of CPs in the environment is difficult because of low analyte concentrations and complex matrixes. Thus, developing effective approaches is necessary. Laccases, which are multicopper oxidases capable of oxidizing substituted phenols and benzenediol derivatives, without any cofactor, are used in biosensors due to their biocatalytic properties, eco-friendliness, and efficiency. Carbon nanotubes (CNTs) show excellent electrical conductivity, mechanical strength, and biocompatibility. They are suitable for enzyme immobilization, which can improve stability and catalytic efficiency. This chapter provides a general approach to CNTs based laccase biosensors to detect CPs for environmental, industrial, and pharmaceutical analysis.",
keywords = "Chlorophenols, analytical electrochemistry, biosensor, carbon nanotubes, determination, electrochemical sensor, electrochemistry, laccase",
author = "S.I. Kaya and M.E. Corman and A. Cetinkaya and T. Karasu and L. Uzun and S.A. Ozkan",
year = "2022",
month = jan,
day = "1",
doi = "10.1016/B978-0-323-90553-4.00008-1",
language = "English",
isbn = "9780323906722",
pages = "331--356",
editor = "Das, {Sangita } and Sabu Thomas and Das, {Partha Pratim}",
booktitle = "Sensing of Deadly Toxic Chemical Warfare Agents, Nerve Agent Simulants, and their Toxicological Aspects",
publisher = "Elsevier",
address = "Netherlands",
}
RIS
TY - CHAP
T1 - Nanotubes tethered laccase biosensor for sensing of chlorophenol substances
AU - Kaya, S.I.
AU - Corman, M.E.
AU - Cetinkaya, A.
AU - Karasu, T.
AU - Uzun, L.
AU - Ozkan, S.A.
PY - 2022/1/1
Y1 - 2022/1/1
N2 - Increasing population density and technological developments resulted in an increase of chlorophenols (CPs) that have been identified as emerging contaminants. CPs can take several routes into the environment, such as industrial waste, pesticides, insecticides, and degradation of complex chlorinated hydrocarbons. CPs have a potential hazard to environmental sources and cause long-term exposure for animals and humans. Determination of CPs in the environment is difficult because of low analyte concentrations and complex matrixes. Thus, developing effective approaches is necessary. Laccases, which are multicopper oxidases capable of oxidizing substituted phenols and benzenediol derivatives, without any cofactor, are used in biosensors due to their biocatalytic properties, eco-friendliness, and efficiency. Carbon nanotubes (CNTs) show excellent electrical conductivity, mechanical strength, and biocompatibility. They are suitable for enzyme immobilization, which can improve stability and catalytic efficiency. This chapter provides a general approach to CNTs based laccase biosensors to detect CPs for environmental, industrial, and pharmaceutical analysis.
AB - Increasing population density and technological developments resulted in an increase of chlorophenols (CPs) that have been identified as emerging contaminants. CPs can take several routes into the environment, such as industrial waste, pesticides, insecticides, and degradation of complex chlorinated hydrocarbons. CPs have a potential hazard to environmental sources and cause long-term exposure for animals and humans. Determination of CPs in the environment is difficult because of low analyte concentrations and complex matrixes. Thus, developing effective approaches is necessary. Laccases, which are multicopper oxidases capable of oxidizing substituted phenols and benzenediol derivatives, without any cofactor, are used in biosensors due to their biocatalytic properties, eco-friendliness, and efficiency. Carbon nanotubes (CNTs) show excellent electrical conductivity, mechanical strength, and biocompatibility. They are suitable for enzyme immobilization, which can improve stability and catalytic efficiency. This chapter provides a general approach to CNTs based laccase biosensors to detect CPs for environmental, industrial, and pharmaceutical analysis.
KW - Chlorophenols
KW - analytical electrochemistry
KW - biosensor
KW - carbon nanotubes
KW - determination
KW - electrochemical sensor
KW - electrochemistry
KW - laccase
U2 - 10.1016/B978-0-323-90553-4.00008-1
DO - 10.1016/B978-0-323-90553-4.00008-1
M3 - Chapter
SN - 9780323906722
SP - 331
EP - 356
BT - Sensing of Deadly Toxic Chemical Warfare Agents, Nerve Agent Simulants, and their Toxicological Aspects
A2 - Das, Sangita
A2 - Thomas, Sabu
A2 - Das, Partha Pratim
PB - Elsevier
ER -
