Recent Advances in Enzymatic and Non-Enzymatic Electrochemical Glucose Sensing

The detection of glucose is crucial in the management of diabetes and other medical conditions but also crucial in a wide range of industries such as food and beverages. The development of glucose sensors in the past century has allowed diabetic patients to effectively manage their disease and has saved lives. First-generation glucose sensors have considerable limitations in sensitivity and selectivity which has spurred the development of more advanced approaches for both the medical and industrial sectors. The wide range of application areas has resulted in a range of materials and fabrication techniques to produce novel glucose sensors that have higher sensitivity and selectivity, lower cost, and are simpler to use. A major focus has been on the development of enzymatic electrochemical sensors, typically using glucose oxidase. However, non-enzymatic approaches using direct electrochemistry of glucose on noble metals are now a viable approach in glucose biosensor design. This review discusses the mechanisms of electrochemical glucose sensing with a focus on the different generations of enzymatic-based sensors, their recent advances, and provides an overview of the next generation of non-enzymatic sensors. Advancements in manufacturing techniques and materials are key in propelling the field of glucose sensing, however, significant limitations remain which are highlighted in this review and requires addressing to obtain a more stable, sensitive, selective, cost efficient, and real-time glucose sensor.

[1]  X. Qiu,et al.  Rapid Fabrication of Superhydrophilic Micro/Nanostructured Nickel Foam Toward High‐Performance Glucose Sensor , 2021, Advanced Materials Interfaces.

[2]  Shan-Shan Li,et al.  MnO2/multi-walled carbon nanotubes based nanocomposite with enhanced electrocatalytic activity for sensitive amperometric glucose biosensing , 2020 .

[3]  Omer Yehezkeli,et al.  Oxygen insensitive amperometric glucose biosensor based on FAD dependent glucose dehydrogenase co-entrapped with DCPIP or DCNQ in a polydopamine layer , 2020 .

[4]  H. Muguruma,et al.  Xylose-Insensitive Direct Electron Transfer Biosensor Strip With Single-Walled Carbon Nanotubes and Novel Fungal Flavin Adenine Dinucleotide Glucose Dehydrogenase , 2020, IEEE Sensors Journal.

[5]  A. Garcia-Cruz,et al.  Generic sensor platform based on electro-responsive molecularly imprinted polymer nanoparticles (e-NanoMIPs) , 2020, Microsystems & Nanoengineering.

[6]  Abbas Barfidokht,et al.  Electrochemical glucose sensors in diabetes management: an updated review (2010-2020). , 2020, Chemical Society reviews.

[7]  H. Doğan,et al.  Nonenzymatic glucose sensor based on poly(3,4-ethylene dioxythiophene)/electroreduced graphene oxide modified gold electrode , 2020 .

[8]  Ala Eldin Omer,et al.  Low-cost portable microwave sensor for non-invasive monitoring of blood glucose level: novel design utilizing a four-cell CSRR hexagonal configuration , 2020, Scientific Reports.

[9]  Wenxi Zhao,et al.  Metal–organic framework-derived yolk–shell hollow Ni/NiO@C microspheres for bifunctional non-enzymatic glucose and hydrogen peroxide biosensors , 2020, Journal of Materials Science.

[10]  A. Karyakin,et al.  Wearable non-invasive monitors of diabetes and hypoxia through continuous analysis of sweat. , 2020, Talanta.

[11]  Hyowon Lee,et al.  Printable Nonenzymatic Glucose Biosensors Using Carbon Nanotube-PtNP Nanocomposites Modified with AuRu for Improved Selectivity. , 2020, ACS biomaterials science & engineering.

[12]  S. Kuo,et al.  Construction Hierarchically Mesoporous/Microporous Materials Based on Block Copolymer and Covalent Organic Framework , 2020 .

[13]  HuoJuanjuan,et al.  Rational design of CoNi alloy and atomic Co/Ni composite as an efficient electrocatalyst , 2020 .

[14]  Fernando Otero,et al.  Biosensors—Recent Advances and Future Challenges in Electrode Materials , 2020, Sensors.

[15]  J. Rogalski,et al.  NAD(P)-dependent glucose dehydrogenase: Applications for biosensors, bioelectrodes, and biofuel cells. , 2020, Bioelectrochemistry.

[16]  Chenjie Xu,et al.  Surface Enhanced Raman Spectroscopy based Biosensor with a Microneedle Array for Minimally Invasive In Vivo Glucose Measurements. , 2020, ACS sensors.

[17]  T. Ha,et al.  Non-enzymatic electrochemical glucose sensors based on polyaniline/reduced-graphene-oxide nanocomposites functionalized with silver nanoparticles , 2020 .

[18]  G. Slaughter,et al.  PtNPs decorated chemically derived graphene and carbon nanotubes for sensitive and selective glucose biosensing , 2020 .

[19]  F. Lisdat PQQ-GDH - Structure, function and application in bioelectrochemistry. , 2020, Bioelectrochemistry.

[20]  I. M. Mohamed,et al.  Synthesis of mesoporous nickel ferrite nanoparticles by use of citrate framework methodology and application for electrooxidation of glucose in alkaline media , 2020 .

[21]  F. Sen,et al.  A novel high performance non-enzymatic electrochemical glucose biosensor based on activated carbon-supported Pt-Ni nanocomposite , 2020 .

[22]  N. Stevanovic,et al.  Application of N,N’‐ Bis(acetylacetonato)propylenediimine Copper(II) Complex as Mediator for Glucose Biosensor , 2020 .

[23]  Junko Okuda-Shimazaki,et al.  Engineered Glucose Oxidase Capable of Quasi-Direct Electron Transfer after a Quick-and-Easy Modification with a Mediator , 2020, International journal of molecular sciences.

[24]  S. Baek,et al.  Cu-nanoflower decorated gold nanoparticles-graphene oxide nanofiber as electrochemical biosensor for glucose detection. , 2020, Materials science & engineering. C, Materials for biological applications.

[25]  Xuejin Gao,et al.  Core-shell gold-nickel nanostructures as highly selective and stable nonenzymatic glucose sensor for fermentation process , 2020, Scientific Reports.

[26]  D. Yoon,et al.  A bio-inspired highly selective enzymatic glucose sensor using a red blood cell membrane. , 2020, The Analyst.

[27]  K. Thodkar,et al.  Electron transfer from FAD-dependent glucose dehydrogenase to single-sheet graphene electrodes , 2020 .

[28]  Y. Dilgin,et al.  Development of an interference-minimized amperometric-FIA glucose biosensor at a pyrocatechol violet/glucose dehydrogenase-modified graphite pencil electrode , 2020, Chemical Papers.

[29]  Juan Li,et al.  Multiwalled carbon nanotubes coated with cobalt(II) sulfide nanoparticles for electrochemical sensing of glucose via direct electron transfer to glucose oxidase , 2020, Microchimica Acta.

[30]  Eyal Dassau,et al.  Microneedle-Based Detection of Ketone Bodies along with Glucose and Lactate: Toward Real-Time Continuous ISF Monitoring of Diabetic Ketosis/Ketoacidosis. , 2019, Analytical chemistry.

[31]  S. Sanzaro,et al.  Laser and thermal dewetting of gold layer onto graphene paper for non-enzymatic electrochemical detection of glucose and fructose , 2019 .

[32]  D. Haltrich,et al.  Pyranose oxidase: A versatile sugar oxidoreductase for bioelectrochemical applications. , 2019, Bioelectrochemistry.

[33]  Daniel G. Pinacho,et al.  Optical Biosensors for Therapeutic Drug Monitoring , 2019, Biosensors.

[34]  R. Jose,et al.  Fabrication of a glucose oxidase/multiporous tin-oxide nanofiber film on Prussian blue–modified gold electrode for biosensing , 2019, Journal of Electroanalytical Chemistry.

[35]  G. Rivas,et al.  Avidin and Glucose Oxidase‐non‐covalently Functionalized Multi‐walled Carbon Nanotubes: A New Analytical Tool for Building a Bienzymatic Glucose Biosensor , 2019, Electroanalysis.

[36]  M. Zafar,et al.  4D Printing: Future Insight in Additive Manufacturing , 2019, Metals and Materials International.

[37]  Dorian Liepmann,et al.  Cell-based biosensors: Recent trends, challenges and future perspectives. , 2019, Biosensors & bioelectronics.

[38]  Li Li,et al.  Electrospinning of highly dispersed Ni/CoO carbon nanofiber and its application in glucose electrochemical sensor , 2019, Journal of Electroanalytical Chemistry.

[39]  Z. Vafapour Polarization-Independent Perfect Optical Metamaterial Absorber as a Glucose Sensor in Food Industry Applications , 2019, IEEE Transactions on NanoBioscience.

[40]  Wei Xiong,et al.  Nanoscale Ni(OH)x Films on Carbon Cloth Prepared by Atomic Layer Deposition and Electrochemical Activation for Glucose Sensing , 2019, ACS Applied Nano Materials.

[41]  Dongxue Han,et al.  A portable micro glucose sensor based on copper-based nanocomposite structure , 2019, New Journal of Chemistry.

[42]  Yanpeng Xue,et al.  Nanoporous gold chemically de-alloyed from Au-based amorphous thin film for electrochemical nonenzymatic H2O2 sensing , 2019, Chemical Physics Letters.

[43]  L. O. Orzari,et al.  A novel disposable self-adhesive inked paper device for electrochemical sensing of dopamine and serotonin neurotransmitters and biosensing of glucose. , 2019, Biosensors & bioelectronics.

[44]  V. P. Rachim,et al.  Wearable-band type visible-near infrared optical biosensor for non-invasive blood glucose monitoring , 2019, Sensors and Actuators B: Chemical.

[45]  Li Wang,et al.  Ratiometric electrochemical glucose sensor based on electroactive Schiff base polymers , 2019, Sensors and Actuators B: Chemical.

[46]  Zhizhou Zhang,et al.  Developments in 4D-printing: a review on current smart materials, technologies, and applications , 2019, International Journal of Smart and Nano Materials.

[47]  M. Pemble,et al.  A highly sensitive glucose biosensor based on a micro disk array electrode design modified with carbon quantum dots and gold nanoparticles , 2019, Electrochimica Acta.

[48]  Qingxiang Wang,et al.  High-performance non-enzymatic glucose sensor by hierarchical flower-like nickel(II)-based MOF/carbon nanotubes composite. , 2019, Materials science & engineering. C, Materials for biological applications.

[49]  Sergey A Piletsky,et al.  Molecularly Imprinted Polymers in Electrochemical and Optical Sensors. , 2019, Trends in biotechnology.

[50]  Y. Udum,et al.  A multipurpose conjugated polymer: Electrochromic device and biosensor construction for glucose detection , 2019, Organic Electronics.

[51]  Mohammed Maniruzzaman,et al.  3D and 4D printing in biomedical applications: process engineering and additive manufacturing , 2019 .

[52]  B. Bouchikhi,et al.  A nonenzymatic electrochemical glucose sensor based on molecularly imprinted polymer and its application in measuring saliva glucose. , 2019, Materials science & engineering. C, Materials for biological applications.

[53]  Nishant Verma A green synthetic approach for size tunable nanoporous gold nanoparticles and its glucose sensing application , 2018, Applied Surface Science.

[54]  J. Sempionatto,et al.  Enzymatic glucose/oxygen biofuel cells: Use of oxygen-rich cathodes for operation under severe oxygen-deficit conditions. , 2018, Biosensors & bioelectronics.

[55]  Astrid Aksnes,et al.  A review of optical methods for continuous glucose monitoring , 2018, Applied Spectroscopy Reviews.

[56]  Saram Lee,et al.  Recent advances in electrochemical non-enzymatic glucose sensors - A review. , 2018, Analytica chimica acta.

[57]  B. Ye,et al.  An efficient electrochemical glucose sensor based on porous nickel-based metal organic framework/carbon nanotubes composite (Ni-MOF/CNTs) , 2018, Journal of Alloys and Compounds.

[58]  A. Baeumner,et al.  Functional Nanomaterials and Nanostructures Enhancing Electrochemical Biosensors and Lab-on-a-Chip Performances: Recent Progress, Applications, and Future Perspective. , 2018, Chemical reviews.

[59]  A. Mathur,et al.  Comparative analysis of single-walled and multi-walled carbon nanotubes for electrochemical sensing of glucose on gold printed circuit boards. , 2018, Materials science & engineering. C, Materials for biological applications.

[60]  S. Cinti,et al.  Paper-based synthesis of Prussian Blue Nanoparticles for the development of whole blood glucose electrochemical biosensor. , 2018, Talanta.

[61]  K. Kalcher,et al.  Enzymatic glucose biosensor based on manganese dioxide nanoparticles decorated on graphene nanoribbons , 2018, Journal of Electroanalytical Chemistry.

[62]  L. Gorton,et al.  Enzyme based amperometric biosensors , 2018, Current Opinion in Electrochemistry.

[63]  Wolfgang Schuhmann,et al.  Long-term implantable glucose biosensors , 2018, Current Opinion in Electrochemistry.

[64]  Xiliang Luo,et al.  Electrochemical Deposition: An Advanced Approach for Templated Synthesis of Nanoporous Metal Architectures. , 2018, Accounts of chemical research.

[65]  Abderrazak Maaref,et al.  Dawson-type polyoxometalate nanoclusters confined in a carbon nanotube matrix as efficient redox mediators for enzymatic glucose biofuel cell anodes and glucose biosensors. , 2018, Biosensors & bioelectronics.

[66]  G. Urban,et al.  Non-enzymatic glucose sensing based on hierarchical platinum micro-/nanostructures , 2018 .

[67]  L. Gorton,et al.  Amperometric Flow Injection Analysis of Glucose and Galactose Based on Engineered Pyranose 2-Oxidases and Osmium Polymers for Biosensor Applications , 2018 .

[68]  D. Yoon,et al.  A highly permselective electrochemical glucose sensor using red blood cell membrane. , 2018, Biosensors & bioelectronics.

[69]  T. Chung,et al.  Disposable non-enzymatic blood glucose sensing strip based on nanoporous platinum particles , 2018 .

[70]  Wei Chen,et al.  Small Naked Pt Nanoparticles Confined in Mesoporous Shell of Hollow Carbon Spheres for High-Performance Nonenzymatic Sensing of H2O2 and Glucose , 2018, ACS omega.

[71]  Orawon Chailapakul,et al.  Bimetallic Pt-Au nanocatalysts electrochemically deposited on boron-doped diamond electrodes for nonenzymatic glucose detection. , 2017, Biosensors & bioelectronics.

[72]  Zhe Qu,et al.  Skin-like biosensor system via electrochemical channels for noninvasive blood glucose monitoring , 2017, Science Advances.

[73]  Rafiq Ahmad,et al.  Globular Shaped Polypyrrole Doped Well-Dispersed Functionalized Multiwall Carbon Nanotubes/Nafion Composite for Enzymatic Glucose Biosensor Application , 2017, Scientific Reports.

[74]  Li Wang,et al.  A novel flexible electrochemical glucose sensor based on gold nanoparticles/polyaniline arrays/carbon cloth electrode , 2017 .

[75]  M. Meyyappan,et al.  Synthesis of gold nanoparticles supported on functionalized nanosilica using deep eutectic solvent for an electrochemical enzymatic glucose biosensor. , 2017, Journal of materials chemistry. B.

[76]  Dermot Diamond,et al.  Glucose Sensing for Diabetes Monitoring: Recent Developments , 2017, Sensors.

[77]  S. Komathi,et al.  A novel glucose sensor using lutetium phthalocyanine as redox mediator in reduced graphene oxide conducting polymer multifunctional hydrogel. , 2017, Biosensors & bioelectronics.

[78]  M. Meyyappan,et al.  Chitosan-Covered Pd@Pt Core–Shell Nanocubes for Direct Electron Transfer in Electrochemical Enzymatic Glucose Biosensor , 2017, ACS omega.

[79]  Lulu Chen,et al.  Three-Dimensional Copper Foam Supported CuO Nanowire Arrays: An Efficient Non-enzymatic Glucose Sensor , 2017 .

[80]  J. Hrbáč,et al.  Glucose sensing on graphite screen-printed electrode modified by sparking of copper nickel alloys. , 2017, Talanta.

[81]  Moataz Soliman,et al.  Graphene quantum dots prepared from glucose as optical sensor for glucose , 2017 .

[82]  Chuan Zhao,et al.  Electrochemically roughened nanoporous platinum electrodes for non-enzymatic glucose sensors , 2017 .

[83]  K. Kalcher,et al.  Wiring of glucose oxidase with graphene nanoribbons: an electrochemical third generation glucose biosensor , 2017, Microchimica Acta.

[84]  Michael J. McShane,et al.  Composite Hydrogels with Engineered Microdomains for Optical Glucose Sensing at Low Oxygen Conditions , 2017, Biosensors.

[85]  Pankaj Koinkar,et al.  A fine pointed glucose oxidase immobilized electrode for low-invasive amperometric glucose monitoring. , 2016, Biosensors & bioelectronics.

[86]  G. De Micheli,et al.  Bubble electrodeposition of gold porous nanocorals for the enzymatic and non-enzymatic detection of glucose. , 2016, Bioelectrochemistry.

[87]  Yusuke Kuroki,et al.  Mouthguard biosensor with telemetry system for monitoring of saliva glucose: A novel cavitas sensor. , 2016, Biosensors & bioelectronics.

[88]  Jianming Pan,et al.  Recent advances in non-enzymatic electrochemical glucose sensors based on non-precious transition metal materials: opportunities and challenges , 2016 .

[89]  B. Haghighi,et al.  Fabrication of a third-generation glucose biosensor using graphene-polyethyleneimine-gold nanoparticles hybrid , 2016 .

[90]  Tingting Guo Facile Synthesis of Bimetallic PtxCu1-x Nanostrands and Their Application in Non-Enzymatic Glucose Sensor , 2016 .

[91]  Yue Zhao,et al.  Nonenzymatic detection of glucose using three-dimensional PtNi nanoclusters electrodeposited on the multiwalled carbon nanotubes , 2016 .

[92]  Wang Jinping,et al.  Nonenzymatic Electrochemical Sensor for Glucose Based on Nanoporous Platinum-Gold Alloy , 2016 .

[93]  Jadranka Travas-Sejdic,et al.  Conducting polymer based electrochemical biosensors. , 2016, Physical chemistry chemical physics : PCCP.

[94]  Yongan Yang,et al.  Revisiting the oxidation peak in the cathodic scan of the cyclic voltammogram of alcohol oxidation on noble metal electrodes , 2016 .

[95]  Li'na Xu,et al.  Adsorption of BiIII on Pt nanoparticles leading to the enhanced electrocatalysis of glucose oxidation , 2015, Colloid Journal.

[96]  Xiangheng Niu,et al.  Enzyme-Free Amperometric Detection of Glucose on Platinum-Replaced Porous Copper Frameworks , 2015 .

[97]  Shen-ming Chen,et al.  Fabrication of a Nonenzymatic Glucose Sensor Based on Multi-Walled Carbon Nanotubes Decorated with Platinum and Silver Hybrid Composite , 2015, International Journal of Electrochemical Science.

[98]  Ahmed Wasif Reza,et al.  Optical Nano Antennas: State of the Art, Scope and Challenges as a Biosensor Along with Human Exposure to Nano-Toxicology , 2015, Sensors.

[99]  D. Deganello,et al.  Direct patterning of gold nanoparticles using flexographic printing for biosensing applications , 2015, Nanoscale Research Letters.

[100]  Yunbin He,et al.  Synthesis of highly dispersed Pt nanoclusters anchored graphene composites and their application for non-enzymatic glucose sensing , 2015 .

[101]  Yi Wang,et al.  Effects of pore size and residual Ag on electrocatalytic properties of nanoporous gold films prepared by pulse electrochemical dealloying , 2015 .

[102]  Michael C Leopold,et al.  Functional layer-by-layer design of xerogel-based first-generation amperometric glucose biosensors. , 2015, Langmuir : the ACS journal of surfaces and colloids.

[103]  Eunkyoung Kim,et al.  Synthesis of carbon nanotube-nickel nanocomposites using atomic layer deposition for high-performance non-enzymatic glucose sensing. , 2015, Biosensors & bioelectronics.

[104]  Feng Li,et al.  Non-enzymatic glucose sensor based on Au nanoparticles decorated ternary Ni-Al layered double hydroxide/single-walled carbon nanotubes/graphene nanocomposite , 2015 .

[105]  P. Pandey,et al.  3-Aminopropyltrimethoxysilane and organic electron donors mediated synthesis of functional amphiphilic gold nanoparticles and their bioanalytical applications , 2014 .

[106]  D. Haltrich,et al.  Engineering Pyranose 2-Oxidase for Modified Oxygen Reactivity , 2014, PloS one.

[107]  B. Derby,et al.  Inkjet printing biomaterials for tissue engineering: bioprinting , 2014 .

[108]  P. Erden,et al.  An amperometric hydrogen peroxide biosensor based on Co3O4 nanoparticles and multiwalled carbon nanotube modified glassy carbon electrode , 2014 .

[109]  Aihua Liu,et al.  Porous gold cluster film prepared from Au@BSA microspheres for electrochemical nonenzymatic glucose sensor , 2014 .

[110]  C. Chen,et al.  Synthesis of hollow Pt–Ni–graphene nanostructures for nonenzymatic glucose detection , 2014 .

[111]  M. Oyama,et al.  Nonenzymatic sensing of glucose at neutral pH values using a glassy carbon electrode modified with graphene nanosheets and Pt-Pd bimetallic nanocubes , 2014, Microchimica Acta.

[112]  Junhong Chen,et al.  Nickel oxide hollow microsphere for non-enzyme glucose detection. , 2014, Biosensors & bioelectronics.

[113]  Mohammad Mazloum-Ardakani,et al.  Screen-printed electrodes for biosensing: a review (2008–2013) , 2014, Microchimica Acta.

[114]  Hongli Zhao,et al.  Electrochemical sensing interfaces with tunable porosity for nonenzymatic glucose detection: a Cu foam case. , 2014, Biosensors & bioelectronics.

[115]  Muamer Dervisevic,et al.  Development of Amperometric Glucose Biosensor Based on Reconstitution of Glucose Oxidase on Polymeric 3-Aminophenyl Boronic Acid Monolayer , 2013 .

[116]  Sejin Park,et al.  Nanoporous platinum thin films synthesized by electrochemical dealloying for nonenzymatic glucose detection. , 2013, Physical chemistry chemical physics : PCCP.

[117]  Fei Xiao,et al.  Growth of coral-like PtAu-MnO2 binary nanocomposites on free-standing graphene paper for flexible nonenzymatic glucose sensors. , 2013, Biosensors & bioelectronics.

[118]  Yingchun Fu,et al.  Recent advances in electrochemical glucose biosensors: a review , 2013 .

[119]  Qin Xu,et al.  Facile fabrication of nanoporous platinum by alloying–dealloying process and its application in glucose sensing , 2012 .

[120]  Hironobu Murata,et al.  Direct electron transfer in a mediator-free glucose oxidase-based carbon nanotube-coated biosensor , 2012 .

[121]  C. Malitesta,et al.  Amperometric non-enzymatic bimetallic glucose sensor based on platinum tellurium microtubes modified electrode , 2012 .

[122]  P. Bártolo,et al.  Additive manufacturing of tissues and organs , 2012 .

[123]  Zhigang Zhu,et al.  A Critical Review of Glucose Biosensors Based on Carbon Nanomaterials: Carbon Nanotubes and Graphene , 2012, Sensors.

[124]  G. Rödel,et al.  Saccharomyces cerevisiae gene YMR291W/TDA1 mediates the in vivo phosphorylation of hexokinase isoenzyme 2 at serine‐15 , 2012, FEBS letters.

[125]  Sangyun Park,et al.  Nonenzymatic continuous glucose monitoring in human whole blood using electrified nanoporous Pt. , 2012, Biosensors & bioelectronics.

[126]  Alina N Sekretaryova,et al.  Reagentless biosensor based on glucose oxidase wired by the mediator freely diffusing in enzyme containing membrane. , 2012, Analytical chemistry.

[127]  Jianbin Zheng,et al.  A novel glucose biosensor based on direct electrochemistry of glucose oxidase incorporated in biomediated gold nanoparticles–carbon nanotubes composite film , 2011 .

[128]  Plamen Atanassov,et al.  Engineering of glucose oxidase for direct electron transfer via site-specific gold nanoparticle conjugation. , 2011, Journal of the American Chemical Society.

[129]  K. Sode,et al.  Review of Glucose Oxidases and Glucose Dehydrogenases: A Bird's Eye View of Glucose Sensing Enzymes , 2011, Journal of diabetes science and technology.

[130]  Feng Yan,et al.  Highly Sensitive Glucose Biosensors Based on Organic Electrochemical Transistors Using Platinum Gate Electrodes Modified with Enzyme and Nanomaterials , 2011 .

[131]  L. Gorton,et al.  A third generation glucose biosensor based on cellobiose dehydrogenase from Corynascus thermophilus and single-walled carbon nanotubes. , 2011, The Analyst.

[132]  Jaimie N. Davis,et al.  Sugar Content of Popular Sweetened Beverages Based on Objective Laboratory Analysis: Focus on Fructose Content , 2011, Obesity.

[133]  H. Ghourchian,et al.  Amine functionalized TiO2 coated on carbon nanotube as a nanomaterial for direct electrochemistry of glucose oxidase and glucose biosensing , 2011 .

[134]  I. Willner,et al.  Biocatalytic Implant of Pt Nanoclusters into Glucose Oxidase: A Method to Electrically Wire the Enzyme and to Transform It from an Oxidase to a Hydrogenase , 2010 .

[135]  Richard G. Compton,et al.  Electrochemical Non-enzymatic Glucose Sensors: A Perspective and an Evaluation , 2010, International Journal of Electrochemical Science.

[136]  Yi Cui,et al.  Mechanism of glucose electrochemical oxidation on gold surface , 2010 .

[137]  S. Campuzano,et al.  An integrated amperometric biosensor for the determination of lactose in milk and dairy products. , 2010, Journal of agricultural and food chemistry.

[138]  Jae-Joon Lee,et al.  A Comprehensive Review of Glucose Biosensors Based on Nanostructured Metal-Oxides , 2010, Sensors.

[139]  C. Della Pina,et al.  Alkaline glucose oxidation on nanostructured gold electrodes , 2010 .

[140]  Liang Wang,et al.  Breakthrough and future: nanoscale controls of compositions, morphologies, and mesochannel orientations toward advanced mesoporous materials. , 2009, Chemical record.

[141]  Chan-Hwa Chung,et al.  Gold nanowire array electrode for non-enzymatic voltammetric and amperometric glucose detection , 2009 .

[142]  Kenji Kano,et al.  Air diffusion biocathode with CueO as electrocatalyst adsorbed on carbon particle-modified electrodes. , 2009, Bioelectrochemistry.

[143]  Fei Xiao,et al.  Nonenzymatic glucose sensor based on ultrasonic-electrodeposition of bimetallic PtM (M=Ru, Pd and Au) nanoparticles on carbon nanotubes-ionic liquid composite film. , 2009, Biosensors & bioelectronics.

[144]  F. Forouzandeh,et al.  Electrocatalytic oxidation of glucose on Ni and NiCu alloy modified glassy carbon electrode , 2009 .

[145]  L. Ananthanarayan,et al.  Glucose oxidase--an overview. , 2009, Biotechnology advances.

[146]  Huafeng Yang,et al.  Direct electrochemistry of glucose oxidase and biosensing for glucose based on graphene. , 2009, Analytical chemistry.

[147]  E. Torres,et al.  Apoenzyme reconstitution as a chemical tool for structural enzymology and biotechnology. , 2009, Angewandte Chemie.

[148]  Changqing Sun,et al.  Enzyme-free glucose sensor based on a three-dimensional gold film electrode , 2008 .

[149]  Adam Heller,et al.  Electrochemical glucose sensors and their applications in diabetes management. , 2008, Chemical reviews.

[150]  B. R. Jean,et al.  A microwave frequency sensor for non-invasive blood-glucose measurement , 2008, 2008 IEEE Sensors Applications Symposium.

[151]  Itamar Willner,et al.  Design of Amperometric Biosensors and Biofuel Cells by the Reconstitution of Electrically Contacted Enzyme Electrodes , 2008 .

[152]  Minhaz Uddin Ahmed,et al.  Electrochemical biosensors for U-healthcare , 2008 .

[153]  Joseph Wang Electrochemical glucose biosensors. , 2008, Chemical reviews.

[154]  C. Cheeseman,et al.  Facilitated hexose transporters: new perspectives on form and function. , 2007, Physiology.

[155]  María Espinosa Bosch,et al.  Recent Development in Optical Fiber Biosensors , 2007, Sensors (Basel, Switzerland).

[156]  A. Keating,et al.  Functional properties and genomics of glucose transporters. , 2007, Current genomics.

[157]  C. Mirkin,et al.  Applications of dip-pen nanolithography. , 2007, Nature nanotechnology.

[158]  T. Nyokong,et al.  Novel amperometric glucose biosensor based on an ether-linked cobalt(II) phthalocyanine–cobalt(II) tetraphenylporphyrin pentamer as a redox mediator , 2006 .

[159]  Sejin Park,et al.  Electrochemical non-enzymatic glucose sensors. , 2006, Analytica chimica acta.

[160]  Itamar Willner,et al.  Reconstitution of apo-glucose dehydrogenase on pyrroloquinoline quinone-functionalized au nanoparticles yields an electrically contacted biocatalyst. , 2005, Journal of the American Chemical Society.

[161]  L. Setti,et al.  An amperometric glucose biosensor prototype fabricated by thermal inkjet printing. , 2005, Biosensors & bioelectronics.

[162]  Adam Heller,et al.  Integrated medical feedback systems for drug delivery , 2005 .

[163]  Isao Taniguchi,et al.  Effect of metal ad-layers on Au(111) electrodes on electrocatalytic oxidation of glucose in an alkaline solution , 2004 .

[164]  Sejin Park,et al.  Nonenzymatic glucose detection using mesoporous platinum. , 2003, Analytical chemistry.

[165]  Joseph Wang,et al.  Comparison of oxygen-rich and mediator-based glucose-oxidase carbon-paste electrodes , 2001 .

[166]  S A Spencer,et al.  Glucose sensor with improved haemocompatibilty. , 2000, Biosensors & bioelectronics.

[167]  Joseph Wang,et al.  Oxygen-Rich Oxidase Enzyme Electrodes for Operation in Oxygen-Free Solutions , 1998 .

[168]  R. Buck,et al.  Miniaturized biosensors employing electropolymerized permselective films and their use for creatine assays in human serum. , 1996, Analytical chemistry.

[169]  Adam Heller,et al.  Electrical Wiring of Glucose Oxidase by Reconstitution of FAD-Modified Monolayers Assembled onto Au-Electrodes , 1996 .

[170]  Ibtisam E. Tothill,et al.  Catalytic Materials, Membranes, and Fabrication Technologies Suitable for the Construction of Amperometric Biosensors , 1995 .

[171]  Joseph Wang,et al.  Highly selective biosensing of glucose utilizing a glucose oxidase + rhodium + Nafion® biocatalytic-electrocatalytic-permselective surface microstructure , 1995 .

[172]  Alexander M. Yacynych,et al.  Use of polymer films in amperometric biosensors , 1995 .

[173]  G. Rao,et al.  Electrooxidation of alcohols and sugars catalysed on a nickel oxide modified glassy carbon electrode , 1995 .

[174]  A. Karyakin,et al.  Prussian Blue-Based First-Generation Biosensor. A Sensitive Amperometric Electrode for Glucose , 1995 .

[175]  Shaojun Dong,et al.  Amperometric biosensors based on the immobilization of oxidases in a Prussian blue film by electrochemical codeposition , 1995 .

[176]  D. Centonze,et al.  Correlation between permselectivity and chemical structure of overoxidized polypyrrole membranes used in electroproduced enzyme biosensors , 1995 .

[177]  A Heller,et al.  Design and optimization of a selective subcutaneously implantable glucose electrode based on "wired" glucose oxidase. , 1995, Analytical chemistry.

[178]  Joseph Wang,et al.  Highly Selective Membrane-Free, Mediator-Free Glucose Biosensor , 1994 .

[179]  L. Burke,et al.  Premonolayer oxidation and its role in electrocatalysis , 1994 .

[180]  Kenji,et al.  Electrocatalytic Oxidation of Carbohydrates at Copper(II)-Modified Electrodes and its Application to Flow-Through Detection. , 1994 .

[181]  G. S. Wilson,et al.  Elimination of the acetaminophen interference in an implantable glucose sensor. , 1994, Analytical chemistry.

[182]  Theodore Kuwana,et al.  Electrochemical characterization of carbohydrate oxidation at copper electrodes , 1992 .

[183]  L. Burke,et al.  The role of incipient hydrous oxides in the oxidation of glucose and some of its derivatives in aqueous media , 1992 .

[184]  G. S. Wilson,et al.  Can continuous glucose monitoring be used for the treatment of diabetes. , 1992, Analytical chemistry.

[185]  Adam Heller,et al.  Electrical Connection of Enzyme Redox Centers to Electrodes , 1992 .

[186]  Adam Heller,et al.  Electron Transfer between Glucose Oxidase and Electrodes via Redox Mediators Bound with Flexible Chains to the Enzyme Surface , 1991 .

[187]  C. Malitesta,et al.  Glucose fast-response amperometric sensor based on glucose oxidase immobilized in an electropolymerized poly(o-phenylenediamine) film. , 1990, Analytical chemistry.

[188]  J K Norsko,et al.  Chemisorption on metal surfaces , 1990 .

[189]  Alexander M. Yacynych,et al.  Electropolymerized 1,2-diaminobenzene as a means to prevent interferences and fouling and to stabilize immobilized enzyme in electrochemical biosensors , 1990 .

[190]  Adam Heller,et al.  Electrical communication between redox centers of glucose oxidase and electrodes via electrostatically and covalently bound redox polymers , 1989 .

[191]  Yu.B. Vassilyev,et al.  Kinetics and mechanism of glucose electrooxidation on different electrode-catalysts: Part I. Adsorption and oxidation on platinum , 1985 .

[192]  Yu.B. Vassilyev,et al.  Kinetics and mechanism of glucose electrooxidation on different electrode-catalysts: Part II. Effect of the nature of the electrode and the electrooxidation mechanism , 1985 .

[193]  D. Gough,et al.  Two-dimensional enzyme electrode sensor for glucose. , 1985, Analytical chemistry.

[194]  E. Skou The electrochemical oxidation of glucose on platinum—I. The oxidation in 1 M H2SO4 , 1977 .

[195]  G G Guilbault,et al.  An enzyme electrode for the amperometric determination of glucose. , 1973, Analytica chimica acta.

[196]  K. Korinek,et al.  The oxidation of organic compounds at a nickel anode in alkaline solution , 1971 .

[197]  G. Hicks,et al.  The Enzyme Electrode , 1967, Nature.

[198]  L. C. Clark,et al.  ELECTRODE SYSTEMS FOR CONTINUOUS MONITORING IN CARDIOVASCULAR SURGERY , 1962 .

[199]  Zhuangde Jiang,et al.  Depositing reduced graphene oxide on ZnO nanorods to improve the performance of enzymatic glucose sensors , 2021 .

[200]  Yongchai Kwon,et al.  A study on the stability and sensitivity of mediator-based enzymatic glucose sensor measured by catalyst consisting of multilayer stacked via layer-by-layer , 2021 .

[201]  P. Zhang,et al.  A flexible non-enzymatic glucose sensor based on copper nanoparticles anchored on laser-induced graphene , 2020 .

[202]  W. Schuhmann,et al.  Miniaturized Amperometric Glucose Sensors Based on Polymer/ Enzyme Modified Carbon Electrodes in the Sub-Micrometer Scale , 2018 .

[203]  Nazmun Nessa Moon,et al.  D-CARE: A Non-invasive Glucose Measuring Technique for Monitoring Diabetes Patients , 2018, IJCCI.

[204]  Enyi Ye,et al.  Metal nanostructures for non-enzymatic glucose sensing. , 2017, Materials science & engineering. C, Materials for biological applications.

[205]  W. Herman The global burden of diabetes: An overview , 2017 .

[206]  P. Pookmanee,et al.  A Simple Flow Amperometric Electrochemical Biosensor Based on Chitosan Scaffolds and Gold Nanowires Modified on a Glassy Carbon Electrode for Detection of Glutamate in Food Products , 2017 .

[207]  L. Venkat Raghavan,et al.  3D Metal Printing Technology , 2016 .

[208]  M. Şenel,et al.  Development of glucose biosensor based on reconstitution of glucose oxidase onto polymeric redox mediator coated pencil graphite electrodes. , 2015, Enzyme and microbial technology.

[209]  Liling. Tan Growth of coral-like PtAu-MnO2 binary nanocomposites on free-standing graphene paper for flexible nonenzymatic glucose sensors. , 2012 .

[210]  J. S. Rana,et al.  Utility Biosensors for applications in Agriculture - A Review , 2010 .

[211]  Itamar Willner,et al.  Dip-pen-nanolithographic patterning of metallic, semiconductor, and metal oxide nanostructures on surfaces. , 2009, Small.

[212]  Ulla Wollenberger,et al.  Frieder Scheller and the short history of biosensors. , 2008, Advances in biochemical engineering/biotechnology.

[213]  C. Karunakaran,et al.  Biosensors - An Emerging Technology for the Agricultural and Food Industry , 2005 .

[214]  Joseph Wang,et al.  Glucose Biosensors : 40 Years of Advances and Challenges , 2001 .

[215]  I. Casella,et al.  Colloidal gold supported onto glassy carbon substrates as an amperometric sensor for carbohydrates in flow injection and liquid chromatography , 1996 .