- a
- affinity sensors
- AgNPs@PDA catalyst
- amorphous semiconductor model (ASM), of melanin conductivity
- amperometric biosensors
- anisotropic electrically conductive polymer composites
- anthracene doped PANI nanofibers, for biosensing response studies
- antibacterial effect, of PANI‐polyvinylalcohol composite film
- antimicrobial activity, of silver coated PANI nanoparticle
- antimicrobial applications, of PDA
- aptamer-prion complex
- aptamer sensors
- Au@carbon dots-chitosan composite film
- Au nanoparticle-PPy-rGO nanocomposite based acetyl cholinesterase biosensor
- AuNP-AgCl@PANI hybrid material
- autonomic‐healing
- autonomic‐repairing
- b
- bacterial cellulose nanofibers
- BCR/ABL fusion gene identification
- bioimaging, of PDA
- bio‐inspired materials (BiM)
- biomimetic materials
- biosensors
- amperometric biosensors
- calorimetric biosensors
- characteristics
- cholesterol biosensors
- conducting polymers in
- definition
- design, PANI's importance
- elements
- enzyme‐immobilized
- features
- glucose biosensors
- hydrogen peroxide (H2O2) sensors
- mode of action
- nucleic acid biosensors
- optical biosensors
- phenolic compounds
- potentiometric biosensors
- scope of
- bone tissue engineering
- bovine serum albumin (BSA) determination
- Brodie's method
- c
- calorimetric biosensors
- cancer therapy, PDA in
- capsule‐based self‐healing materials
- capture probes
- carbamates determination
- carbon‐based nanomaterials
- carbon nanotubes (CNTs)
- graphene (GN)
- carbon nanotubes (CNTs)
- interaction with PANI
- cell adhesion and proliferation, of PDA
- cell adhesion potential, of L929 fibroblasts
- cell patterning, with PDA
- C6 glioma cells
- chemical sensors
- chemical synthesis, of conducting polymers
- chitosan
- chemical and biological properties
- structure
- chitosan‐based biosensors
- biological and environmental field
- clinical diagnosis and biomedicine
- farm, garden and veterinary analysis
- fermentation control
- industrial effluent control
- microbiology
- military applications
- pharmaceutical and drug analysis
- pollution control
- types of
- chitosan‐gelatin/nanohydroxyapatite polyaniline composite scaffolds
- chitosan‐glucose oxidase immobilized polypyrrole/Nafion/functionalized multi‐walled carbon nanotubes bio‐nanohybrid film
- chitosan‐gold nanoparticles composite film
- chitosan grafted polyaniline (CPANI) cryogel matrix, for sialic acid detection
- chitosan/ionic liquid-graphene composite preparation
- chitosan‐iron oxide nanocomposite films
- chitosan modified multiwall carbon nanotubes biosensor
- chitosan/polypyrrole‐nanotubes/gold nanoparticles nanocomposites
- cholesterol biosensors
- comproportionation reaction (CRR)
- concoction oxidation
- conducting BC‐PANI nanocomposite
- conducting nanocomposites
- conducting polymer composites, interaction with CNT and GN
- for detection of organic molecules
- for microbial sensing
- conducting polymers (CPs)
- biosensors
- chemical synthesis
- composites/blends
- based on conjugated CPs
- in‐situ polymerization method
- latex technology
- melt processing
- solvent mixing method
- drug targeting and delivery
- electrochemical synthesis
- future prospects of
- poly(3,4‐ethylenedioxythiophene)
- polypyrrole
- properties
- structures
- tissue engineering and regenerative medicine
- conductive electroactive polymers (CEPs)
- conductive healable materials
- advantages
- applications
- co‐precipitation technique
- cryomilling strategy
- Cu‐chitosan/multiwalled carbon nanotube film
- cyclic voltammetry (CV)
- d
- daunomycin
- dilute magnetic semiconductors (DMS)
- DNA biosensors
- for avian influenza virus H5N1 gene sequence detection
- cauliflower mosaic virus 35S promoter gene detection
- PANI-AuNP nanocomposite
- polyaniline nanofibers‐AuNP nanocomposite
- DNA electrochemical biosensor
- dopamine detection
- drug delivery, PDA capsules
- drug loading behavior, of PDA capsules
- e
- electrical conductivity
- PANI/hydrophilic montmorillonite composites
- PANI/organophilic montmorillonite composites
- PANI/TiO2 nanocomposites
- PPy/SiO2 nanocomposite
- PPy/SrFe12O19 nanocomposites
- electrically conductive polymer (ECP)
- biosensors
- composites
- for drug targeting and delivery
- medical applications
- for tissue engineering and regenerative medicine
- electrochemical DNA sensor construction process
- electrochemically‐reduced grapheme oxide‐chitosan/hemoglobin nanocomposite
- electrochemical sensors
- electrochemical synthesis, of conducting polymers
- electropolymerization process
- elongation at break
- PU/clay nanocomposites
- enzymatic polymerization, of PDA
- enzyme‐based glucose sensing device
- enzyme immobilization
- enzyme‐immobilized biosensors
- ethyl cellulose (EC)
- biological efficacy of PANI‐based composites and
- EC‐based composites
- activation energies
- conductivity of
- electrode potentials
- EC‐inorganic composites, synthesis of
- eumelanin
- extended graphite
- extrinsic self‐healing
- f
- FECTs‐based glucose sensor
- ferrites
- ferrocene mediated electrochemical biosensor
- FET H2O2 biosensor
- fibre‐based self‐healing approach
- fibronectin, cell adsorption property of
- film casting method
- film deposition approach, for PMNC preparation
- first generation biosensors
- g
- glucose biosensors
- boron nitride nanotubes‐PANI‐PtNPs hybrid
- cytochrome c/AuNPs/PANI nanospheres
- from PtNPs/PANI hydrogel
- GOX immobilized on PANI‐NT
- PANI‐SWCNTs hybrid system
- glucose sensors
- GOX/TiO2‐NPs/PANI/glassy carbon electrode
- graphene (GN)
- graphene‐based PANI nanocomposites
- graphene‐based polymer composites
- graphene oxide (GO)
- preparation methods
- graphene/PVP/PANI nanocomposites modified paper based biosensor
- graphite intercalated compounds
- h
- HDPE nanocomposites, thermal conductivity of
- healing compatibility
- H2O2 biosensors
- HP/PPy/GO nanosheets
- Hummer's method
- hybrid gel based conductive material
- hydrogen peroxide (H2O2) sensors
- i
- immunosensors
- aflatoxin B1 study
- alpha‐fetoprotein detection
- carbohydrate antigen 72‐4 detection
- microcystin‐LR analysis
- prostate‐specific antigen detection
- sensitivity
- in situ oxidative polymerization method
- in‐situ polymerization method
- in situ polymerization strategy, for PMNC preparation
- insulin detection, SPR immunosensor for
- intrinsic self‐healing
- ionic liquid-carbon paste electrode (IL-CPE)
- iron oxide nanoparticles/chitosan graft‐polyaniline nanocomposite film
- iron oxide nanoparticles (IONPs@PPy‐PEG)
- k
- kanamycin analysis
- l
- laccase‐catalyzed polymerization
- laminin protein, cell adsorption property of
- latex technology
- L929 fibroblasts, cell adhesion potential of
- light transmittance, in polycarbonate/alumina composite
- L929 murine fibroblasts
- m
- magnetic hysteresis loops, PEDOT/PSS‐Fe3O4 nanocomposites
- magnetic nanoparticles‐based multifunctional polymer nanocomposites
- magnetic semiconductor based polymer nanocomposites, biocompatibility
- magnetic semiconductor nanoparticles
- based polymer nanocomposites
- dilute magnetic semiconductors
- ferrites
- manganites
- metal and metal oxide nanoparticles
- magnetoelectric polymeric nanocomposites
- malathion detection
- manganites
- mediator‐free H2O2 biosensor
- melanin broadband optical absorbance spectrum
- melanin conductivity
- amorphous semiconductor model
- spin muon resonance model
- melanin dark conductivity vs. water content
- melt processing technique
- mesoporous SiO2
- microbial biosensor
- MRI‐guided chemo‐thermal treatment
- Mycobacterium tuberculosis nucleic acid biosensor
- n
- Nafion-AgCl@PANI‐GC electrode
- nano‐Prussian blue-chitosan film
- nerve tissue engineering
- neural prosthetics
- NiCo/PPy/RGO nanocomposites
- NIH‐3T3 fibroblasts
- nucleic acid biosensors
- o
- optical biosensors
- organic polymer‐based inorganic nanoparticle composites
- organic semiconductors
- p
- PANI‐Ag‐Pt nanocomposite
- PANI‐based composites
- biological efficacy of ethyl cellulose and
- conductivity of
- galvanostatic discharge curves
- synthesis of
- PANI‐based 2‐hydroxyethylcellulose‐polyaniline (HEC‐PANI) nanocomposite cryogens
- PANI composites, interaction with CNTs and GN
- cholesterol biosensors
- glucose biosensors
- hydrogen peroxide (H2O2) sensors
- nucleic acid biosensors
- PANI nanotubes/Au hybrid nanostructures
- PANI/PCL‐mesoporous silicon supported composite
- PANI polymer
- conductivity of
- conductivity of PANI‐based composites
- galvanostatic discharge curves
- protonation and deprotonation of
- synthesis of PANI‐based composites
- PANI supported nano‐hybrid materials
- antimicrobial activity
- biocompatibility
- tissue engineering
- PC‐12 cells cultivation
- PDA fluorescence organic nanoparticles (PDA‐FONs)
- PDA-laccase-MWCNTs nanocomposite film
- PDA‐modified SiO2 scaffolds
- PDAs@CP3‐DOX
- phenazopyridine hydrochloride determination
- phenolic compounds biosensors
- photoconductivity experiments, of melanin
- photothermal therapy (PTT)
- polyaniline (PANI)
- biosensor applications
- chemical structure
- drawbacks
- high electrical conductivity
- oxidized and reduced forms
- platelet adsorption
- polyaniline based biosensors
- genetic materials
- glucose biosensors
- peroxide biosensors
- scientific concerns and future prospects
- for water quality assessment
- polydopamine (PDA)
- adhesive property
- biocompatibility and biodegradation property
- biomedical applications
- polydopamine (PDA).)
- coating and strong adhesive applications
- electrical conductivity
- electrical properties
- energy‐related application
- nanotube synthesis
- optical properties
- polymerization
- synthesis
- zwitterionic property
- polyethylene/clay nanocomposite preparation
- poly(3,4‐ethylenedioxythiophene)poly(4‐styrenesulphonate) (PEDOTPSS)
- poly(ethylene glycol) methyl ether‐tetraamine composite
- polyglycerol dendrimers‐PANI diluted extracts
- poly(3‐hexylthiophene) (P3HT)
- poly(2‐hydroxyethyl methacrylate)‐single‐walled carbon nanotube composites
- poly‐L‐Lysine dendrimers
- polymer‐based nanocomposites
- biocompatibility of
- biomedical applications
- polymer‐graphene nanocomposites
- polymer‐inorganic nanocomposite (PINCs)
- aptamer sensors
- DNA biosensors
- electrical properties
- immunosensors
- magnetic properties
- mechanical properties
- optical properties
- simple melt compounding method
- synthesis routes, schematic representation
- thermal properties
- polymer/magnetic semiconductor nanocomposites (PMNCs)
- amalgamation
- chemical preparation techniques
- physical preparation techniques
- polymer nanocomposite‐based DNA sensors
- polyphenol oxidases-gold nanoparticles-graphene‐chitosan hybrid film
- polypyrrole (PPy)
- biosensor applications
- chemical structure
- polypyrrole‐chitosan‐iron oxide nanocomposite films
- polypyrrole cross‐linked chitosan/glucose oxidase/gold bionanocomposite film
- polypyrrole derivative
- polyurethane (PU)‐based clay nanocomposites
- potentiometric biosensors
- PPy and PTh composites, interaction with CNTs and GN
- r
- rabbit IgG antigen detection, immunosensor for
- reduced graphene oxide (rGO)
- rGO/PPy/AuNP biosensor
- rutin determination
- s
- saturation magnetization
- of PANI/Fe3O4@Au nanocomposite
- of PANI/Fe3O4 nanocomposite
- of PPy/SrFe12O19 nanocomposite
- self‐healing, definition of
- self healing materials
- classification of
- conductivity in
- future prospects
- history of
- polymers
- structural
- use
- self‐healing polymer systems, under quasi‐static fracture
- self‐healing thermally conductive polymer composites
- self‐repairing
- serotonin (5‐HT) biosensor preparation scheme
- sialic acid detection
- silicon rubber (SR) filled with graphite nanoplatelet synthesis
- skeletal muscle cells, biocompatible behavior of
- solution casting method
- solvent mixing method
- spin muon resonance model (SMRM), of melanin conductivity
- ssDNA/PANI/graphene/GCE electrode preparation technique
- Staudenmaier's method
- stress-strain curves, for PU/clay films
- structural self‐healing materials
- sub‐micron size PDA particles
- sulfonated polyaniline (SPAN)
- super‐paramagnetic iron oxide nanoparticles (SPIONs)
- surface plasmon resonance (SPR) biosensor
- synthetic melanin
- t
- tensile strength, PU/clay nanocomposites
- theranostics
- thermal conductivity, of HDPE nanocomposites
- thermally reduced graphene oxide (TRGO)
- thrombin determination
- TiO2@polydopamine photocatalyst
- tissue engineering
- camphorsulfonic acid‐PANI/poly(L‐lactide‐co‐e‐caprolactone nanofibers
- chitosan‐gelatin/nanohydroxyapatite polyaniline composite scaffolds
- PANI‐Ag‐Pt nanocomposite
- PANI‐based 2‐hydroxyethylcellulose‐polyaniline (HEC‐PANI) nanocomposite cryogens
- PANI/PCL‐mesoporous silicon supported composite
- PANI‐poly(3‐hydroxybutyric acid) matrix
- poly(ethylene glycol) methyl ether‐tetraamine composite
- polyglycerol dendrimers‐PANI diluted extracts
- tissue engineering application, of PDA
- total dissolved salts (TDS)
- transparencies, of PINC
- transparent polymethyl methacrylate (PMMA)‐ZnO nanocomposite preparation
- v
- vascular self‐healing materials
- voltammetric strategy
- w
- water‐melanin adsorption isotherm
- water quality assessment, PANI based biosensor for
- whole bacterial cell‐based biosensor
- woven glucose sensing sensors
- z
- zwitterionic property
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