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Decoupling Redox Hopping and Catalysis in Metal‐Organic Frameworks ‐based Electrocatalytic CO2 Reduction
Angewandte Chemie International Edition,
2023
DOI:10.1002/anie.202219046
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[2]
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Decoupling Redox Hopping and Catalysis in Metal‐Organic Frameworks ‐based Electrocatalytic CO2 Reduction
Angewandte Chemie,
2023
DOI:10.1002/ange.202219046
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Boosting the photocatalytic activity of Ti-MOF via emerging with metal phthalocyanine to degrade hazard textile pigments
Journal of Alloys and Compounds,
2022
DOI:10.1016/j.jallcom.2021.162992
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[4]
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Development of optical sensor for determination of perchlorate ions
2022 IEEE International Conference on Design & Test of Integrated Micro & Nano-Systems (DTS),
2022
DOI:10.1109/DTS55284.2022.9809846
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Electrocatalytic behaviour of chalcone substituted Co, Cu, Mn and Ni phthalocyanines towards the detection of nitrite
Journal of Electroanalytical Chemistry,
2022
DOI:10.1016/j.jelechem.2022.116951
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[6]
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Boosting the photocatalytic activity of Ti-MOF via emerging with metal phthalocyanine to degrade hazard textile pigments
Journal of Alloys and Compounds,
2022
DOI:10.1016/j.jallcom.2021.162992
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[7]
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Electrocatalytic behaviour of chalcone substituted Co, Cu, Mn and Ni phthalocyanines towards the detection of nitrite
Journal of Electroanalytical Chemistry,
2022
DOI:10.1016/j.jelechem.2022.116951
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[8]
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Development of highly sensitive and selective bisphenol A sensor based on a cobalt phthalocyanine-modified carbon paste electrode: application in dairy analysis
Analytical Methods,
2021
DOI:10.1039/D1AY00827G
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[9]
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Determination of prostate cancer biomarker acid phosphatase at a copper phthalocyanine-modified screen printed gold transducer
Analytica Chimica Acta,
2019
DOI:10.1016/j.aca.2018.12.058
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A Highly Sensitive Miniaturized Impedimetric Perchlorate Chemical Sensor
IEEE Sensors Journal,
2018
DOI:10.1109/JSEN.2017.2780445
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Development of a Perchlorate Chemical Sensor Based on Magnetic Nanoparticles and Silicon Nitride Capacitive Transducer
Electroanalysis,
2018
DOI:10.1002/elan.201700824
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[12]
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Development of a Perchlorate Chemical Sensor Based on Magnetic Nanoparticles and Silicon Nitride Capacitive Transducer
Electroanalysis,
2018
DOI:10.1002/elan.201700824
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[13]
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Highly sensitive and selective solid-contact calcium sensor based on Schiff base of benzil with 3-aminosalycilic acid covalently attached to polyacrylic acid amide for health care
Journal of Solid State Electrochemistry,
2017
DOI:10.1007/s10008-017-3727-8
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Fabrication of a New Carbon Paste Electrode Based on 5,11,17,23-tetra-tert-butyl-25,27-bis(pyren-1-yl-methylimido-propoxy)-26,28-dihydroxy-calix[4]arene for Potentiometric Perchlorate Determination
International Journal of Electrochemical Science,
2017
DOI:10.20964/2017.11.21
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Citrate-selective electrochemical μ-sensor for early stage detection of prostate cancer
Sensors and Actuators B: Chemical,
2016
DOI:10.1016/j.snb.2016.01.056
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[16]
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Radiation synthesis and characterization of zinc phthalocyanine composite based on 2-hydroxyethyl methacrylate/methyl methacrylate copolymer
Materials Chemistry and Physics,
2016
DOI:10.1016/j.matchemphys.2016.04.012
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[17]
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Development of a perchlorate sensor based on Co-phthalocyanine derivative by impedance spectroscopy measurements
Organic Electronics,
2015
DOI:10.1016/j.orgel.2014.10.048
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[18]
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Graphene oxide with covalently attached zinc monoamino-phthalocyanine coated graphite electrode as a potentiometric platform for citrate sensing in pharmaceutical preparations
Journal of Solid State Electrochemistry,
2015
DOI:10.1007/s10008-015-2832-9
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[19]
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Investigation of structural, optical and electrical properties of a new cobalt phthalocyanine thin films with potential applications in perchlorate sensor
Synthetic Metals,
2015
DOI:10.1016/j.synthmet.2015.07.011
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[20]
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Development of a capacitive chemical sensor based on Co(II)-phthalocyanine acrylate-polymer/HfO2/SiO2/Si for detection of perchlorate
Journal of Sensors and Sensor Systems,
2015
DOI:10.5194/jsss-4-17-2015
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