A salivary glucose biosensor based on immobilization of glucose oxidase in Nafion-carbon nanotubes nanocomposites modified on screen printed electrode

[1]  N. Tai,et al.  Noninvasive Salivary Sensor Based on Ferrocene/ZnO/Nitrogen-Incorporated Nanodiamond/Si Heterojunction Nanostructures for Glucose Sensing in Neutral Conditions , 2023, ACS Applied Nano Materials.

[2]  J. Han,et al.  Facile Preparation of Three-Dimensional Hierarchical Mgo Microstructures for Non-Enzymatic Glucose Sensor , 2023, SSRN Electronic Journal.

[3]  N. Tai,et al.  Acid-treated carbon nanotubes/polypyrrole/fluorine-doped tin oxide electrodes with high sensitivity for saliva glucose sensing , 2022, Diamond and Related Materials.

[4]  Jinrong Yao,et al.  Silk-Based Electrochemical Sensor for the Detection of Glucose in Sweat. , 2022, Biomacromolecules.

[5]  Ambady Ramachandran,et al.  Serum and salivary adipokines in type 2 diabetes - Results of a pilot study in India. , 2022, Diabetes & metabolic syndrome.

[6]  E. Nwangwa,et al.  Comparative Analysis of Fasting Blood Glucose and Salivary Electrolytes Concentrations among Individuals with Type II Diabetes: A Randomized Controlled Hospital Based Study , 2022, Toxicology reports.

[7]  Chi-Young Lee,et al.  Carbon nanotubes/polyethylenimine/glucose oxidase as a non-invasive electrochemical biosensor performs high sensitivity for detecting glucose in saliva , 2022, Microchemical Journal.

[8]  Jing Cheng,et al.  A Flexible Dual-Analyte Electrochemical Biosensor for Salivary Glucose and Lactate Detection , 2022, Biosensors.

[9]  Z. Liao,et al.  Correlations of Salivary and Blood Glucose Levels among Six Saliva Collection Methods , 2022, International journal of environmental research and public health.

[10]  C. Chu,et al.  Effect of socioeconomic status on survival in patients on the Diabetes Shared Care Program: Finding from a Taiwan nationwide cohort , 2022, Journal of the Chinese Medical Association : JCMA.

[11]  Hu Li,et al.  Highly integrated watch for noninvasive continual glucose monitoring , 2022, Microsystems & nanoengineering.

[12]  Jinxin Ma,et al.  Photoelectrochemical Enzyme Biosensor Based on TiO2 Nanorod/TiO2 Quantum Dot/Polydopamine/Glucose Oxidase Composites with Strong Visible-Light Response. , 2022, Langmuir : the ACS journal of surfaces and colloids.

[13]  W. Tang,et al.  Which Aspect of Patient–Provider Relationship Affects Acceptance and Adherence of Insulin Therapy in Type 2 Diabetes Mellitus? A Qualitative Study in Primary Care , 2022, Diabetes, metabolic syndrome and obesity : targets and therapy.

[14]  B. Duncan,et al.  IDF diabetes Atlas: Global, regional and country-level diabetes prevalence estimates for 2021 and projections for 2045 , 2021, Diabetes Research and Clinical Practice.

[15]  Jiaojiao Xia,et al.  Sensitive glucose biosensor based on cyclodextrin modified carbon nanotubes for detecting glucose in honey , 2021, Journal of Food Composition and Analysis.

[16]  M. Collins,et al.  Sustainable mesoporous carbon nanostructures derived from lignin for early detection of glucose , 2021, Green Chemistry.

[17]  V. Brunetti,et al.  Flexible Enzymatic Glucose Electrochemical Sensor Based on Polystyrene-Gold Electrodes , 2021, Micromachines.

[18]  K. Siuzdak,et al.  Electrochemical glucose sensor based on the glucose oxidase entrapped in chitosan immobilized onto laser-processed Au-Ti electrode , 2021 .

[19]  Mian Hasnain Nawaz,et al.  Self-assembled perylene-tetracarboxylic acid/multi-walled carbon nanotube adducts based modification of screen-printed interface for efficient enzyme immobilization towards glucose biosensing , 2021 .

[20]  M. A. Pellitero,et al.  Interrogation of Electrochemical Aptamer-Based Sensors via Peak-to-Peak Separation in Cyclic Voltammetry Improves the Temporal Stability and Batch-to-Batch Variability in Biological Fluids. , 2021, ACS sensors.

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

[22]  I. Khan,et al.  Identifying Barriers to Therapeutic Adherence in Type 2-Diabetes: A Complex and Multidimensional Clinical Issue , 2019, Asploro Journal of Biomedical and Clinical Case Reports.

[23]  Shreya Gupta,et al.  Correlation of salivary glucose level with blood glucose level in diabetes mellitus , 2017, Journal of oral and maxillofacial pathology : JOMFP.

[24]  Fatih Şen,et al.  Rapid, sensitive, and reusable detection of glucose by highly monodisperse nickel nanoparticles decorated functionalized multi-walled carbon nanotubes. , 2017, Biosensors & bioelectronics.

[25]  Chenguo Hu,et al.  A novel β-MnO2 micro/nanorod arrays directly grown on flexible carbon fiber fabric for high-performance enzymeless glucose sensing , 2017 .

[26]  S. Tingry,et al.  Nanostructured Inorganic Materials at Work in Electrochemical Sensing and Biofuel Cells , 2017 .

[27]  Yunqing Du,et al.  On-chip highly sensitive saliva glucose sensing using multilayer films composed of single-walled carbon nanotubes, gold nanoparticles, and glucose oxidase , 2015 .

[28]  Qinglin Zhang,et al.  High Capacity Silicon Electrodes with Nafion as Binders for Lithium-Ion Batteries , 2015 .

[29]  M. Dharmalingam,et al.  Salivary glucose and antioxidant defense markers in type II diabetes mellitus. , 2015, Turkish journal of medical sciences.

[30]  S. Padmashree,et al.  Correlation of salivary glucose, blood glucose and oral candidal carriage in the saliva of type 2 diabetics: A case-control study , 2014, Contemporary clinical dentistry.

[31]  R. Scaffaro,et al.  Statistical Study of the Influence of CNTs Purification and Plasma Functionalization on the Properties of Polycarbonate-CNTs Nanocomposites , 2014 .

[32]  Prashant Kumar,et al.  Saliva: A tool in assessing glucose levels in Diabetes Mellitus. , 2014, Journal of international oral health : JIOH.

[33]  Meng Zhang,et al.  Highly selective and sensitive glucose sensors based on organic electrochemical transistors with graphene-modified gate electrodes. , 2013, Journal of materials chemistry. B.

[34]  V. Gupta,et al.  Noninvasive Method for Glucose Level Estimation by Saliva , 2013 .

[35]  P. Abikshyeet,et al.  Glucose estimation in the salivary secretion of diabetes mellitus patients , 2012, Diabetes, metabolic syndrome and obesity : targets and therapy.

[36]  Kwang-Ho Kwon,et al.  Effects of O2 plasma treatment on NH3 sensing characteristics of multiwall carbon nanotube/polyaniline composite films , 2009 .

[37]  N. Sato,et al.  Development of single-wall carbon nanotubes modified screen-printed electrode using a ferrocene-modified cationic surfactant for amperometric glucose biosensor applications , 2008 .

[38]  L. Drzal,et al.  Simple Fabrication of a Highly Sensitive Glucose Biosensor Using Enzymes Immobilized in Exfoliated Graphite Nanoplatelets Nafion Membrane , 2007 .

[39]  Jing‐Juan Xu,et al.  Multilayer membranes via layer-by-layer deposition of organic polymer protected Prussian blue nanoparticles and glucose oxidase for glucose biosensing. , 2005, Langmuir : the ACS journal of surfaces and colloids.

[40]  Andre K. Geim,et al.  Electric Field Effect in Atomically Thin Carbon Films , 2004, Science.

[41]  L. Heinemann,et al.  Sensors for glucose monitoring: technical and clinical aspects , 2001, Diabetes/metabolism research and reviews.

[42]  Eklund,et al.  Solution properties of single-walled carbon nanotubes , 1998, Science.

[43]  Young Hee Lee,et al.  Crystalline Ropes of Metallic Carbon Nanotubes , 1996, Science.

[44]  W. Gőpel,et al.  Improvement in the long-term stability of an amperometric glucose sensor system by introducing a cellulose membrane of bacterial origin. , 1995, Analytical chemistry.

[45]  B. Kowalewska,et al.  The impact of immobilization process on the electrochemical performance, bioactivity and conformation of glucose oxidase enzyme , 2017 .

[46]  Hua Zhang,et al.  Flexible carbon nanotube papers with improved thermoelectric properties , 2012 .

[47]  Sreedevi,et al.  Comparison of serum glucose and salivary glucose in diabetic patients , 2008 .

[48]  A. Guiseppi-Elie,et al.  Polypyrrole-hydrogel composites for the construction of clinically important biosensors. , 2002, Biosensors & bioelectronics.