Carboxyl Terminated Reduced Graphene Oxide (Crbxl-RGO) and Pt Nanoparticles Based Ultra-Sensitive and Selective Electrochemical Biosensor for Glutamate Detection

[1]  N. Sojic,et al.  Electrochemiluminescent detection of hydrogen peroxide with an imaging sensor array , 2004 .

[2]  E. Korotkova,et al.  Electrochemical Determination of L-Glutamate on a Carbon-Containing Electrode Modified with Gold by Voltammetry , 2015 .

[3]  W. S. Hummers,et al.  Preparation of Graphitic Oxide , 1958 .

[4]  F. G. Sánchez,et al.  Liquid chromatographic and spectrofluorimetric determination of aspartame and glutamate in foodstuffs following fluorescamine fluorigenic labelling , 1992 .

[5]  J. Park,et al.  Plain to point network reduced graphene oxide - activated carbon composites decorated with platinum nanoparticles for urine glucose detection , 2016, Scientific Reports.

[6]  Silvana Andreescu,et al.  Chitosan coated carbon fiber microelectrode for selective in vivo detection of neurotransmitters in live zebrafish embryos. , 2011, Analytica chimica acta.

[7]  Yan Jin,et al.  Electrochemical Detection of Epinephrine Using an L-Glutamic Acid Functionalized Graphene Modified Electrode , 2014 .

[8]  J. Park,et al.  Gold Nanoparticles Assembled Chemically Functionalized Reduced Graphene Oxide Supported Electrochemical Immunosensor for Ultra-Sensitive Prostate Cancer Detection , 2017 .

[9]  J. Park,et al.  An Enzymatic Hybrid Electrode Platform Based on Chemically Modified Reduced Graphene Oxide Decorated with Palladium and Platinum Alloy Nanoparticles for Biosensing Applications , 2015 .

[10]  R. Ohba,et al.  Practical soy sauce production using a mixed Koji-making system , 1994 .

[11]  Rodolfo Cruz-Silva,et al.  Flash reduction and patterning of graphite oxide and its polymer composite. , 2009, Journal of the American Chemical Society.

[12]  J. Park,et al.  Trimetallic Pd@Au@Pt nanocomposites platform on -COOH terminated reduced graphene oxide for highly sensitive CEA and PSA biomarkers detection. , 2018, Biosensors & bioelectronics.

[13]  G. Whitesides,et al.  Self-assembled monolayers of thiolates on metals as a form of nanotechnology. , 2005, Chemical reviews.

[14]  Peter Adriaensens,et al.  Protein engineering for directed immobilization. , 2013, Bioconjugate chemistry.

[15]  R. Pemberton,et al.  Development of a novel reagentless, screen-printed amperometric biosensor based on glutamate dehydrogenase and NAD+, integrated with multi-walled carbon nanotubes for the determination of glutamate in food and clinical applications , 2015 .

[16]  Alan R. Atkins,et al.  Development and application of a liquid chromatography/tandem mass spectrometric assay for measurement of N-acetylaspartate, N-acetylaspartylglutamate and glutamate in brain slice superfusates and tissue extracts. , 2008, Journal of chromatography. B, Analytical technologies in the biomedical and life sciences.

[17]  Roswanira Abdul Wahab,et al.  Review; Agriculture and Environmental Biotechnology an Overview of Technologies for Immobilization of Enzymes and Surface Analysis Techniques for Immobilized Enzymes , 2022 .

[18]  T. Laurila,et al.  Carbon Nanostructure Based Platform for Enzymatic Glutamate Biosensors , 2017 .

[19]  N. Saifuddin,et al.  Carbon Nanotubes: A Review on Structure and Their Interaction with Proteins , 2013 .

[20]  Qiyuan He,et al.  Graphene-based materials: synthesis, characterization, properties, and applications. , 2011, Small.

[21]  Xiaoling Yang,et al.  Amperometric glutamate biosensor based on self-assembling glutamate dehydrogenase and dendrimer-encapsulated platinum nanoparticles onto carbon nanotubes. , 2007, Talanta.

[22]  H. Baik,et al.  Improved electrical conductivity of a non-covalently dispersed graphene–carbon nanotube film by chemical p-type doping , 2012 .

[23]  P. Erden,et al.  Graphene and tricobalt tetraoxide nanoparticles based biosensor for electrochemical glutamate sensing , 2017, Artificial cells, nanomedicine, and biotechnology.

[24]  F. Batista-Viera,et al.  Reversible covalent immobilization of enzymes via disulfide bonds. , 2013, Methods in molecular biology.

[25]  I. Dékány,et al.  DRIFT study of deuterium-exchanged graphite oxide , 2005 .

[26]  Dorota Bartczak,et al.  Preparation of peptide-functionalized gold nanoparticles using one pot EDC/sulfo-NHS coupling. , 2011, Langmuir : the ACS journal of surfaces and colloids.

[27]  B. F. Band,et al.  Simultaneous determination of flavor enhancers in stock cube samples by using spectrophotometric data and multivariate calibration , 2008 .

[28]  F. Fonnum Glutamate: A Neurotransmitter in Mammalian Brain , 1984, Journal of neurochemistry.

[29]  T. Chung,et al.  Electrochemical oxidation of hydrogen peroxide at nanoporous platinum electrodes and the application to glutamate microsensor , 2006 .

[30]  G. Gerhardt,et al.  Simultaneous measurements of ascorbate and glutamate in vivo in the rat brain using carbon fiber nanocomposite sensors and microbiosensor arrays. , 2018, Bioelectrochemistry.

[31]  X. Lai,et al.  3D NiO hollow sphere/reduced graphene oxide composite for high-performance glucose biosensor , 2017, Scientific Reports.

[32]  Zhenzhen Ma,et al.  Immobilization of Ni-Pd/core-shell nanoparticles through thermal polymerization of acrylamide on glassy carbon electrode for highly stable and sensitive glutamate detection. , 2015, Analytica chimica acta.