Rapid and accurate determination of hydrogen peroxide is very essential, as it is not only a product of reactions catalyzed by a number of infinitely selective oxidases, but also a cardinal combined element of food, pharmaceutical and environmental developments. Among the methods used for analysis of hydrogen peroxide, such as titrimetry, photometry, chemiluminescence, high-performance liquid electrochromatography and electrochemistry, enzyme-based biosensors attract important attention, due to the fact that this class of methods is characterized by sensitivity, convenience and high selectivity. Another, no less important aspect is related to determination of microquantities of C2H5OH in aqueous media of various origins. The need to develop express methods for determining the concentration of C2H5OH in aqueous solutions follows from the demand for the quality of alcohol products. As is known, the taste and drinking qualities of the product depend on the ratio of methyl and ethyl alcohols. In this aspect, we have carried out a research on the development of a biomimetic sensor of the catalase and peroxidase type for determining trace amounts of hydrogen peroxide in aqueous and aqueous-alcoholic solutions, as well as determining low concentrations of ethyl alcohol in an aqueous solution. The physicochemical features of catalase and peroxidase biomimetic sensors were studied by potentiometric research works, where metals were used as a transducer. Created on the basis of smart biomimetic material (iron tetraphenylporphyrin) and metals, the biomimetic sensor is characterized by long-term stability, highest sensitivity and reproducibility, with the possibility of expanding the range of detectable trace concentrations of H2O2 and C2H5OH in an aqueous solution. As a result of the study carried out, it was found that the developed TPhPFe3+/Al2O3//Al biomimetic sensors of the catalase and peroxidase types have a sensitivity threshold of 10-6 wt.% and 10-4 wt.%, respectively.
Published in | World Journal of Applied Chemistry (Volume 7, Issue 2) |
DOI | 10.11648/j.wjac.20220702.12 |
Page(s) | 48-53 |
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This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited. |
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Copyright © The Author(s), 2022. Published by Science Publishing Group |
Biomimetic Sensor, Catalase, Peroxidase, Iron Tetraphenylporphyrin, Smart Material
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APA Style
Malikova Nurana Nahmad, Ali-zadeh Nahmad Islam, Nagiev Tofik Murtuza. (2022). TPhPFe3+/Al2O3//Al Biomimetic Sensor of Catalase and Peroxidase Type. World Journal of Applied Chemistry, 7(2), 48-53. https://doi.org/10.11648/j.wjac.20220702.12
ACS Style
Malikova Nurana Nahmad; Ali-zadeh Nahmad Islam; Nagiev Tofik Murtuza. TPhPFe3+/Al2O3//Al Biomimetic Sensor of Catalase and Peroxidase Type. World J. Appl. Chem. 2022, 7(2), 48-53. doi: 10.11648/j.wjac.20220702.12
@article{10.11648/j.wjac.20220702.12, author = {Malikova Nurana Nahmad and Ali-zadeh Nahmad Islam and Nagiev Tofik Murtuza}, title = {TPhPFe3+/Al2O3//Al Biomimetic Sensor of Catalase and Peroxidase Type}, journal = {World Journal of Applied Chemistry}, volume = {7}, number = {2}, pages = {48-53}, doi = {10.11648/j.wjac.20220702.12}, url = {https://doi.org/10.11648/j.wjac.20220702.12}, eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.wjac.20220702.12}, abstract = {Rapid and accurate determination of hydrogen peroxide is very essential, as it is not only a product of reactions catalyzed by a number of infinitely selective oxidases, but also a cardinal combined element of food, pharmaceutical and environmental developments. Among the methods used for analysis of hydrogen peroxide, such as titrimetry, photometry, chemiluminescence, high-performance liquid electrochromatography and electrochemistry, enzyme-based biosensors attract important attention, due to the fact that this class of methods is characterized by sensitivity, convenience and high selectivity. Another, no less important aspect is related to determination of microquantities of C2H5OH in aqueous media of various origins. The need to develop express methods for determining the concentration of C2H5OH in aqueous solutions follows from the demand for the quality of alcohol products. As is known, the taste and drinking qualities of the product depend on the ratio of methyl and ethyl alcohols. In this aspect, we have carried out a research on the development of a biomimetic sensor of the catalase and peroxidase type for determining trace amounts of hydrogen peroxide in aqueous and aqueous-alcoholic solutions, as well as determining low concentrations of ethyl alcohol in an aqueous solution. The physicochemical features of catalase and peroxidase biomimetic sensors were studied by potentiometric research works, where metals were used as a transducer. Created on the basis of smart biomimetic material (iron tetraphenylporphyrin) and metals, the biomimetic sensor is characterized by long-term stability, highest sensitivity and reproducibility, with the possibility of expanding the range of detectable trace concentrations of H2O2 and C2H5OH in an aqueous solution. As a result of the study carried out, it was found that the developed TPhPFe3+/Al2O3//Al biomimetic sensors of the catalase and peroxidase types have a sensitivity threshold of 10-6 wt.% and 10-4 wt.%, respectively.}, year = {2022} }
TY - JOUR T1 - TPhPFe3+/Al2O3//Al Biomimetic Sensor of Catalase and Peroxidase Type AU - Malikova Nurana Nahmad AU - Ali-zadeh Nahmad Islam AU - Nagiev Tofik Murtuza Y1 - 2022/06/20 PY - 2022 N1 - https://doi.org/10.11648/j.wjac.20220702.12 DO - 10.11648/j.wjac.20220702.12 T2 - World Journal of Applied Chemistry JF - World Journal of Applied Chemistry JO - World Journal of Applied Chemistry SP - 48 EP - 53 PB - Science Publishing Group SN - 2637-5982 UR - https://doi.org/10.11648/j.wjac.20220702.12 AB - Rapid and accurate determination of hydrogen peroxide is very essential, as it is not only a product of reactions catalyzed by a number of infinitely selective oxidases, but also a cardinal combined element of food, pharmaceutical and environmental developments. Among the methods used for analysis of hydrogen peroxide, such as titrimetry, photometry, chemiluminescence, high-performance liquid electrochromatography and electrochemistry, enzyme-based biosensors attract important attention, due to the fact that this class of methods is characterized by sensitivity, convenience and high selectivity. Another, no less important aspect is related to determination of microquantities of C2H5OH in aqueous media of various origins. The need to develop express methods for determining the concentration of C2H5OH in aqueous solutions follows from the demand for the quality of alcohol products. As is known, the taste and drinking qualities of the product depend on the ratio of methyl and ethyl alcohols. In this aspect, we have carried out a research on the development of a biomimetic sensor of the catalase and peroxidase type for determining trace amounts of hydrogen peroxide in aqueous and aqueous-alcoholic solutions, as well as determining low concentrations of ethyl alcohol in an aqueous solution. The physicochemical features of catalase and peroxidase biomimetic sensors were studied by potentiometric research works, where metals were used as a transducer. Created on the basis of smart biomimetic material (iron tetraphenylporphyrin) and metals, the biomimetic sensor is characterized by long-term stability, highest sensitivity and reproducibility, with the possibility of expanding the range of detectable trace concentrations of H2O2 and C2H5OH in an aqueous solution. As a result of the study carried out, it was found that the developed TPhPFe3+/Al2O3//Al biomimetic sensors of the catalase and peroxidase types have a sensitivity threshold of 10-6 wt.% and 10-4 wt.%, respectively. VL - 7 IS - 2 ER -