CuO@PEDOT:PSS-grafted paper-based electrochemical biosensor for paraoxon-ethyl detection

[1]  Shen-ming Chen,et al.  High-performance electrochemical sensing of hazardous pesticide Paraoxon using BiVO4 nano dendrites equipped catalytic strips. , 2021, Chemosphere.

[2]  R. Yuan,et al.  Ratiometric electrochemiluminescence biosensor based on Ir nanorods and CdS quantum dots for the detection of organophosphorus pesticides , 2021, Sensors and Actuators B: Chemical.

[3]  Devendra Kumar,et al.  PEDOT : PSS ‐grafted graphene oxide‐titanium dioxide nanohybrid‐based conducting paper for glucose detection , 2021 .

[4]  P. He,et al.  Acetylcholinesterase modified AuNPs-MoS2-rGO/PI flexible film biosensor: Towards efficient fabrication and application in paraoxon detection. , 2019, Bioelectrochemistry.

[5]  Fengli Qu,et al.  A CuO-CeO2 composite prepared by calcination of a bimetallic metal-organic framework for use in an enzyme-free electrochemical inhibition assay for malathion , 2019, Microchimica Acta.

[6]  U. Schmid,et al.  Nonenzymatic Electrochemical Determination of Paraoxon Ethyl in Water and Fruits by Graphene-Based NiFe Bimetallic Phosphosulfide Nanocomposite as a Superior Sensing Layer , 2019, Food Analytical Methods.

[7]  Shine Augustine,et al.  Electrochemical paper based cancer biosensor using iron oxide nanoparticles decorated PEDOT:PSS. , 2019, Analytica chimica acta.

[8]  Chengzhou Zhu,et al.  Polydopamine-Capped Bimetallic AuPt Hydrogels Enable Robust Biosensor for Organophosphorus Pesticide Detection. , 2019, Small.

[9]  Chelladurai Karuppiah,et al.  Enzyme-free electrochemical detection of nanomolar levels of the organophosphorus pesticide paraoxon-ethyl by using a poly(N-isopropyl acrylamide)-chitosan microgel decorated with palladium nanoparticles , 2019, Microchimica Acta.

[10]  M. Yusoff,et al.  Application of polymerized multiporous nanofiber of SnO2 for designing a bienzyme glucose biosensor based on HRP/GOx. , 2019, International journal of biological macromolecules.

[11]  D. Huo,et al.  3D graphene/copper oxide nano-flowers based acetylcholinesterase biosensor for sensitive detection of organophosphate pesticides , 2019, Sensors and Actuators B: Chemical.

[12]  S. Kundu,et al.  Preparation, characterization and electrical behaviors of PEDOT:PSS-Au/Ag nanocomposite thin films: an ecofriendly approach , 2018, Polymer Bulletin.

[13]  Khaled N. Salama,et al.  A fully inkjet-printed disposable glucose sensor on paper , 2018, npj Flexible Electronics.

[14]  Lauro T. Kubota,et al.  Emerging Considerations for the Future Development of Electrochemical Paper-Based Analytical Devices , 2018, ChemElectroChem.

[15]  V. Muthuraj,et al.  Design of Novel Ytterbium Molybdate Nanoflakes Anchored Carbon Nanofibers: Challenging Sustainable Catalyst for the Detection and Degradation of Assassination Weapon (Paraoxon-Ethyl) , 2018 .

[16]  M. Behbahani,et al.  Modified 3D Graphene-Au as a Novel Sensing Layer for Direct and Sensitive Electrochemical Determination of Carbaryl Pesticide in Fruit, Vegetable, and Water Samples , 2018, Food Analytical Methods.

[17]  Taeghwan Hyeon,et al.  Enzyme‐Based Glucose Sensor: From Invasive to Wearable Device , 2018, Advanced healthcare materials.

[18]  Livia F. Sgobbi,et al.  Functionalized polyacrylamide as an acetylcholinesterase-inspired biomimetic device for electrochemical sensing of organophosphorus pesticides. , 2018, Biosensors & bioelectronics.

[19]  H. O. Frota,et al.  Polyaniline-CuO hybrid nanocomposite with enhanced electrical conductivity , 2018 .

[20]  Hui-Fang Cui,et al.  A highly stable acetylcholinesterase biosensor based on chitosan-TiO2-graphene nanocomposites for detection of organophosphate pesticides. , 2018, Biosensors & bioelectronics.

[21]  K. Charmy,et al.  Organophosphorus pesticides determination by novel HPLC and spectrophotometric method. , 2017, Food chemistry.

[22]  Bansi D Malhotra,et al.  Reduced graphene oxide modified smart conducting paper for cancer biosensor. , 2015, Biosensors & bioelectronics.

[23]  Jung-Hyun Kim,et al.  Direct synthesis of highly conductive poly(3,4-ethylenedioxythiophene):poly(4-styrenesulfonate) (PEDOT:PSS)/graphene composites and their applications in energy harvesting systems , 2014, Nano Research.

[24]  Yu Lei,et al.  CuO nanowires based sensitive and selective non-enzymatic glucose detection , 2014 .

[25]  Katerina Mastovska,et al.  Evaluation of a new column backflushing set-up in the gas chromatographic-tandem mass spectrometric analysis of pesticide residues in dietary supplements. , 2012, Journal of chromatography. A.

[26]  Andres W Martinez,et al.  Microfluidic paper-based analytical devices: from POCKET to paper-based ELISA. , 2011, Bioanalysis.

[27]  Eun Kyu Lee,et al.  Quantitative Analysis of Methyl Parathion Pesticides in a Polydimethylsiloxane Microfluidic Channel Using Confocal Surface-Enhanced Raman Spectroscopy , 2006, Applied spectroscopy.

[28]  A. Roda,et al.  Chemiluminescent flow sensor for the determination of Paraoxon and Aldicarb pesticides , 1994 .