Keyphrases
MXene-based Composites
100%
Flake Size
49%
Biosensing
43%
Nanomaterials
43%
Ti3C2Tx
37%
Educational Background
37%
Biomolecular
37%
Materials Science
37%
Pharmacy
37%
University of Brighton
37%
Nitride MXenes
37%
Electrochemical Sensor
37%
PhD Project
37%
Health Technology
37%
Doctoral Students
37%
Ti3C2Tx MXene
37%
Molecular Detection
37%
Transition Metal Nitrides
37%
Biological Environment
37%
Transition Metal Carbides
37%
Material Engineering
37%
Coated Fiber
37%
Electrochemical Sensing
25%
Ti3C2Tx Flakes
12%
Material Characteristics
12%
Niche Application
12%
Electrochemical Performance
12%
High Performance
12%
Resistance to Bending
12%
Internet of Things
12%
Electrode Thickness
12%
Film Uniformity
12%
Outer-sphere Redox Probe
12%
Faradaic
12%
Cyclic Voltammetry
12%
Capacitance
12%
Analytical Electrochemistry
12%
Film Geometry
12%
Integrated Device
12%
Unique Properties
12%
Sensing Technology
12%
Bending Condition
12%
Ruthenium Hexamine
12%
Robust Sensor
12%
Self-powered
12%
Flake Orientation
12%
Optimized Electrodes
12%
Flexible Sensor
12%
Mechanical Mismatch
12%
Linear Resistance
12%
Material Science
Nanocrystalline Material
87%
MXene
74%
Titanium Carbide
37%
Biocompatibility
37%
Transition Metal Carbide
37%
Nitride Compound
37%
Materials Science
37%
Hydrogen Peroxide
25%
Film
14%
Electrochemical Property
12%
Electrical Conductivity
12%
Cyclic Voltammetry
7%
Ruthenium
7%
Capacitance
7%
Engineering
Engineering
37%
Electrochemical Sensor
37%
Nanomaterial
37%
Biological Environment
37%
Biosensing
37%
MXene
37%
Nitride
37%
Electrochemical Sensing
25%
Parametric Study
12%
Material Characteristic
12%
Internet of Things
12%
Film Orientation
12%
Niche Application
12%
Self-Powered
12%
Sensing Capability
12%
Processability
12%
Linear Resistance
12%
Microfibres
12%
Active Cell
12%