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Keyphrases
Acidosis
100%
2-aminoethyl Methacrylate
100%
PH-responsive Hydrogel
100%
Impedimetric Measurement
100%
Dimethylaminoethyl Methacrylate
40%
Trauma
20%
Water Distribution
20%
Bound Water
20%
Strong Correlation
10%
Differential Scanning Calorimetry
10%
PH-sensitive
10%
High Sensitivity
10%
Anticorrelation
10%
PH-responsive
10%
Microsensor
10%
Sodium Salt
10%
PH Sensing
10%
PH Sensor
10%
Hydroxyethyl
10%
Tertiary Amine
10%
Electrochemical Impedance Spectroscopy
10%
Stainless Steel Mesh
10%
Primary Amines
10%
Hydrogel System
10%
Tissue Acidosis
10%
Optimal Sensitivity
10%
Methacrylate Hydrogels
10%
PH Response
10%
Sensing Range
10%
Equivalent Circuit Modeling
10%
Methacrylate-based
10%
Poly(2-hydroxyethyl methacrylate)
10%
Hydrogel Discs
10%
Impedimetric
10%
Design of Experiments Approach
10%
Mesh Electrode
10%
SUS304 Stainless Steel
10%
Responsive Membranes
10%
Taguchi Experiment
10%
QR Analysis
10%
Buffer Circuit
10%
Gravimetric Analysis
10%
Response Surface Methodology
10%
Water Sensitivity
10%
Chemistry
Methacrylate
100%
Hydrogel
100%
Ethyl
28%
electrode
14%
Water Distribution
14%
Differential Scanning Calorimetry
7%
Buffer Solution
7%
Gravimetric Analysis
7%
Sodium Salt
7%
Dielectric Spectroscopy
7%
Tertiary Amine
7%
Primary Amine
7%
2-Hydroxyethyl Methacrylate
7%
304 Stainless Steel
7%
pH Sensor
7%
Medicine and Dentistry
Acidosis
100%
Methacrylic Acid
100%
Buffer
7%
Response Factor
7%
Polymacon
7%
Stainless Steel
7%
Differential Scanning Calorimetry
7%
Impedance Spectroscopy
7%
Tertiary Amine
7%
HEPES
7%
Material Science
Hydrogel
100%
Sodium
16%
Electronic Circuit
16%
Dielectric Spectroscopy
16%
Differential Scanning Calorimetry
16%
304 Stainless Steel
16%
Microsensor
16%
Pharmacology, Toxicology and Pharmaceutical Science
Methacrylate
100%
Buffer
7%
Differential Scanning Calorimetry
7%
Hydration
7%
Tertiary Amine
7%
Stainless Steel
7%
HEPES
7%
Polymacon
7%