Efficacy of Phthalocyanine‐Based Catalysts in Electrochemical Sensors: A Comprehensive Review
Abstract Metal phthalocyanines (MPcs) are promising materials for electrochemical sensing due to their physicochemical properties, including redox activity, structural versatility, and chemical stability. These materials can incorporate various metals into their central core, ensuring tunable cataly...
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Wiley-VCH
2024-12-01
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| Series: | Advanced Sensor Research |
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| Online Access: | https://doi.org/10.1002/adsr.202400088 |
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| author | Keshavananda Prabhu C P Shambhulinga Aralekallu Lokesh Koodlur Sannegowda |
| author_facet | Keshavananda Prabhu C P Shambhulinga Aralekallu Lokesh Koodlur Sannegowda |
| author_sort | Keshavananda Prabhu C P |
| collection | DOAJ |
| description | Abstract Metal phthalocyanines (MPcs) are promising materials for electrochemical sensing due to their physicochemical properties, including redox activity, structural versatility, and chemical stability. These materials can incorporate various metals into their central core, ensuring tunable catalytic activity and enhanced sensitivity and selectivity. This makes MPcs valuable for designing advanced electrochemical sensors, which require precise and reliable performance for applications ranging from environmental monitoring to biomedical diagnostics. This review discusses the advancements in MPc‐based catalysts for electrochemical sensors, focusing on their superior catalytic properties, stability under diverse operating conditions, and high functionalization potential. The unique redox behavior of the metal center in MPcs ensures improved detection capabilities of analytes like biomolecules, heavy metal ions, and environmental pollutants, positioning MPc materials as a cornerstone in future sensor technology. MPc‐based sensors have diverse applications across various fields, including environmental sensing, medical diagnostics, and industrial process monitoring. Recent reports highlight the practical relevance and growing importance of MPcs in real‐world applications. Challenges associated with MPc‐based sensors include scalability, environmental stability, and integration into practical devices. The review concludes with a discussion on the future outlook on MPcs in the design and development of next‐generation electrochemical sensors, paving the way for more efficient, cost‐effective, and reliable detection technologies. |
| format | Article |
| id | doaj-art-cc33d6e707424cce8a8a0360b03252a1 |
| institution | Kabale University |
| issn | 2751-1219 |
| language | English |
| publishDate | 2024-12-01 |
| publisher | Wiley-VCH |
| record_format | Article |
| series | Advanced Sensor Research |
| spelling | doaj-art-cc33d6e707424cce8a8a0360b03252a12024-12-11T08:15:04ZengWiley-VCHAdvanced Sensor Research2751-12192024-12-01312n/an/a10.1002/adsr.202400088Efficacy of Phthalocyanine‐Based Catalysts in Electrochemical Sensors: A Comprehensive ReviewKeshavananda Prabhu C P0Shambhulinga Aralekallu1Lokesh Koodlur Sannegowda2Department of Chemical and Biological Engineering Gachon University Seongnam‐si Gyeonggi‐do 13120 South KoreaCentre for Research in Functional Materials (CRFM) JAIN (Deemed‐to‐be University) Jain Global Campus Bengaluru Karnataka 562112 IndiaDepartment of Studies in Chemistry Vijayanagara Sri Krishnadevaraya University Vinayakanagara Ballari 583105 IndiaAbstract Metal phthalocyanines (MPcs) are promising materials for electrochemical sensing due to their physicochemical properties, including redox activity, structural versatility, and chemical stability. These materials can incorporate various metals into their central core, ensuring tunable catalytic activity and enhanced sensitivity and selectivity. This makes MPcs valuable for designing advanced electrochemical sensors, which require precise and reliable performance for applications ranging from environmental monitoring to biomedical diagnostics. This review discusses the advancements in MPc‐based catalysts for electrochemical sensors, focusing on their superior catalytic properties, stability under diverse operating conditions, and high functionalization potential. The unique redox behavior of the metal center in MPcs ensures improved detection capabilities of analytes like biomolecules, heavy metal ions, and environmental pollutants, positioning MPc materials as a cornerstone in future sensor technology. MPc‐based sensors have diverse applications across various fields, including environmental sensing, medical diagnostics, and industrial process monitoring. Recent reports highlight the practical relevance and growing importance of MPcs in real‐world applications. Challenges associated with MPc‐based sensors include scalability, environmental stability, and integration into practical devices. The review concludes with a discussion on the future outlook on MPcs in the design and development of next‐generation electrochemical sensors, paving the way for more efficient, cost‐effective, and reliable detection technologies.https://doi.org/10.1002/adsr.202400088biomoleculeselectrochemical sensorselectrochemical techniquesheavy metal‐ion detectionLODLOQ |
| spellingShingle | Keshavananda Prabhu C P Shambhulinga Aralekallu Lokesh Koodlur Sannegowda Efficacy of Phthalocyanine‐Based Catalysts in Electrochemical Sensors: A Comprehensive Review Advanced Sensor Research biomolecules electrochemical sensors electrochemical techniques heavy metal‐ion detection LOD LOQ |
| title | Efficacy of Phthalocyanine‐Based Catalysts in Electrochemical Sensors: A Comprehensive Review |
| title_full | Efficacy of Phthalocyanine‐Based Catalysts in Electrochemical Sensors: A Comprehensive Review |
| title_fullStr | Efficacy of Phthalocyanine‐Based Catalysts in Electrochemical Sensors: A Comprehensive Review |
| title_full_unstemmed | Efficacy of Phthalocyanine‐Based Catalysts in Electrochemical Sensors: A Comprehensive Review |
| title_short | Efficacy of Phthalocyanine‐Based Catalysts in Electrochemical Sensors: A Comprehensive Review |
| title_sort | efficacy of phthalocyanine based catalysts in electrochemical sensors a comprehensive review |
| topic | biomolecules electrochemical sensors electrochemical techniques heavy metal‐ion detection LOD LOQ |
| url | https://doi.org/10.1002/adsr.202400088 |
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