“…In contrast, screen-printing carbon based electrodes have been shown to be highly successful allowing for mass production with good precision. Recently, the application of SPCEs for the determination of metal ions has been reviewed by a number of authors [96,97,98,99,100,101,102]. Four approaches have been identified: Hg thin layer, Bi or Sb thin film and unmodified carbon electrodes using stripping voltammetry and to a lesser extent, biosensor based systems.…”
Section: Screen-printed Sensors For Metal Ion Determinationmentioning
confidence: 99%
“…Certain metals readily interfere with enzyme activity; an effect which can be harnessed to develop biosensors for their determination [101,161,162,163]. The determination As 3+ at an acetylcholinesterase modified SPCE has been reported [154].…”
Section: Screen-printed Sensors For Metal Ion Determinationmentioning
This review describes recent advances in the fabrication of electrochemical (bio)sensors based on screen-printing technology involving carbon materials and their application in biomedical, agri-food and environmental analyses. It will focus on the various strategies employed in the fabrication of screen-printed (bio)sensors, together with their performance characteristics; the application of these devices for the measurement of selected naturally occurring biomolecules, environmental pollutants and toxins will be discussed.
“…In contrast, screen-printing carbon based electrodes have been shown to be highly successful allowing for mass production with good precision. Recently, the application of SPCEs for the determination of metal ions has been reviewed by a number of authors [96,97,98,99,100,101,102]. Four approaches have been identified: Hg thin layer, Bi or Sb thin film and unmodified carbon electrodes using stripping voltammetry and to a lesser extent, biosensor based systems.…”
Section: Screen-printed Sensors For Metal Ion Determinationmentioning
confidence: 99%
“…Certain metals readily interfere with enzyme activity; an effect which can be harnessed to develop biosensors for their determination [101,161,162,163]. The determination As 3+ at an acetylcholinesterase modified SPCE has been reported [154].…”
Section: Screen-printed Sensors For Metal Ion Determinationmentioning
This review describes recent advances in the fabrication of electrochemical (bio)sensors based on screen-printing technology involving carbon materials and their application in biomedical, agri-food and environmental analyses. It will focus on the various strategies employed in the fabrication of screen-printed (bio)sensors, together with their performance characteristics; the application of these devices for the measurement of selected naturally occurring biomolecules, environmental pollutants and toxins will be discussed.
“…(5) Şekil 4. yukarıda anlatılan geri dönülemez ve tekrarlanabilir inhibiyon türlerini şematize ederek özetlemektedir [24]. Şekil 4.…”
Section: Tekrarlanabilir İnhibisyonunclassified
“…Enzim inhibisyonuna dayalı biyosensör kullanılarak geri dönüşümsüz ve tekrarlanabilir inhibitör tespiti için farklı protokoller (Amine ve ark. [24]'dan adapte edilmiştir)…”
Acetylcholinesterase Inhibition Based Biosensors Developed by Using Conducting Polymers for Pesticide Analyses
ABSTRACTPesticides commonly used worldwide are chemicals used as agricultural, industrial, domestic and war materials. Although pesticides are very strongly associated with many health problems, there is a serious lack of monitoring and identification of these pollutants. Conventional chromatographic methods such as high performance liquid chromatography, capillary electrophoresis and mass spectrometry are effective methods for pesticide analysis in foods. However, these methods have considerable limitations in terms of complex processes, time-consuming preparatory steps, expensive equipment and expert staff requirements. Biosensors are preferred devices for the determination of pesticides because of their simplicity, high sensitivity, short analysis time and low analysis cost, as well as their applicability to real time measurements. For more than fifteen years, biosensors based on enzyme inhibition have been developed to monitor pesticide residues for food control and safety. Conductive polymers have been used during constructions of these pesticide biosensors. In this study, studies on biosensors used for pesticide analyses were summarized and then researches on acetylcholinesterase inhibition based biosensors developed by using conducting polymers for pesticide analyses were reviewed. .
“…Therefore, the identification and detection of PCP is very important. Due to the low cost, simple operation, time saving, high sensitivity and selectivity, electrochemical techniques currently attracted attention in the determination of PCP (Amine et al, 2016;Wu et al, 2015;Yang et al, 2015). However, the highly sensitive and rapidly electrochemical determination of PCP is still a great challenge.…”
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