Index

 

  1. a
  2. affinity sensors
  3. AgNPs@PDA catalyst
  4. amorphous semiconductor model (ASM), of melanin conductivity
  5. amperometric biosensors
  6. anisotropic electrically conductive polymer composites
  7. anthracene doped PANI nanofibers, for biosensing response studies
  8. antibacterial effect, of PANI‐polyvinylalcohol composite film
  9. antimicrobial activity, of silver coated PANI nanoparticle
  10. antimicrobial applications, of PDA
  11. aptamer-prion complex
  12. aptamer sensors
  13. Au@carbon dots-chitosan composite film
  14. Au nanoparticle-PPy-rGO nanocomposite based acetyl cholinesterase biosensor
  15. AuNP-AgCl@PANI hybrid material
  16. autonomic‐healing
  17. autonomic‐repairing

 

  1. b
  2. bacterial cellulose nanofibers
  3. BCR/ABL fusion gene identification
  4. bioimaging, of PDA
  5. bio‐inspired materials (BiM)
  6. biomimetic materials
  7. biosensors
    1. amperometric biosensors
    2. calorimetric biosensors
    3. characteristics
    4. cholesterol biosensors
    5. conducting polymers in
    6. definition
    7. design, PANI's importance
    8. elements
    9. enzyme‐immobilized
    10. features
    11. glucose biosensors
    12. hydrogen peroxide (H2O2) sensors
    13. mode of action
    14. nucleic acid biosensors
    15. optical biosensors
    16. phenolic compounds
    17. potentiometric biosensors
    18. scope of
  8. bone tissue engineering
  9. bovine serum albumin (BSA) determination
  10. Brodie's method

 

  1. c
  2. calorimetric biosensors
  3. cancer therapy, PDA in
  4. capsule‐based self‐healing materials
  5. capture probes
  6. carbamates determination
  7. carbon‐based nanomaterials
    1. carbon nanotubes (CNTs)
    2. graphene (GN)
  8. carbon nanotubes (CNTs)
    1. interaction with PANI
  9. cell adhesion and proliferation, of PDA
  10. cell adhesion potential, of L929 fibroblasts
  11. cell patterning, with PDA
  12. C6 glioma cells
  13. chemical sensors
  14. chemical synthesis, of conducting polymers
  15. chitosan
    1. chemical and biological properties
    2. structure
  16. chitosan‐based biosensors
    1. biological and environmental field
    2. clinical diagnosis and biomedicine
    3. farm, garden and veterinary analysis
    4. fermentation control
    5. industrial effluent control
    6. microbiology
    7. military applications
    8. pharmaceutical and drug analysis
    9. pollution control
    10. types of
  17. chitosan‐gelatin/nanohydroxyapatite polyaniline composite scaffolds
  18. chitosan‐glucose oxidase immobilized polypyrrole/Nafion/functionalized multi‐walled carbon nanotubes bio‐nanohybrid film
  19. chitosan‐gold nanoparticles composite film
  20. chitosan grafted polyaniline (CPANI) cryogel matrix, for sialic acid detection
  21. chitosan/ionic liquid-graphene composite preparation
  22. chitosan‐iron oxide nanocomposite films
  23. chitosan modified multiwall carbon nanotubes biosensor
  24. chitosan/polypyrrole‐nanotubes/gold nanoparticles nanocomposites
  25. cholesterol biosensors
  26. comproportionation reaction (CRR)
  27. concoction oxidation
  28. conducting BC‐PANI nanocomposite
  29. conducting nanocomposites
  30. conducting polymer composites, interaction with CNT and GN
    1. for detection of organic molecules
    2. for microbial sensing
  31. conducting polymers (CPs)
    1. biosensors
    2. chemical synthesis
    3. composites/blends
      1. based on conjugated CPs
      2. insitu polymerization method
      3. latex technology
      4. melt processing
      5. solvent mixing method
    4. drug targeting and delivery
    5. electrochemical synthesis
    6. future prospects of
    7. poly(3,4‐ethylenedioxythiophene)
    8. polypyrrole
    9. properties
    10. structures
    11. tissue engineering and regenerative medicine
  32. conductive electroactive polymers (CEPs)
  33. conductive healable materials
    1. advantages
    2. applications
  34. co‐precipitation technique
  35. cryomilling strategy
  36. Cu‐chitosan/multiwalled carbon nanotube film
  37. cyclic voltammetry (CV)

 

  1. d
  2. daunomycin
  3. dilute magnetic semiconductors (DMS)
  4. DNA biosensors
    1. for avian influenza virus H5N1 gene sequence detection
    2. cauliflower mosaic virus 35S promoter gene detection
    3. PANI-AuNP nanocomposite
    4. polyaniline nanofibers‐AuNP nanocomposite
  5. DNA electrochemical biosensor
  6. dopamine detection
  7. drug delivery, PDA capsules
  8. drug loading behavior, of PDA capsules

 

  1. e
  2. electrical conductivity
    1. PANI/hydrophilic montmorillonite composites
    2. PANI/organophilic montmorillonite composites
    3. PANI/TiO2 nanocomposites
    4. PPy/SiO2 nanocomposite
    5. PPy/SrFe12O19 nanocomposites
  3. electrically conductive polymer (ECP)
    1. biosensors
    2. composites
    3. for drug targeting and delivery
    4. medical applications
    5. for tissue engineering and regenerative medicine
  4. electrochemical DNA sensor construction process
  5. electrochemically‐reduced grapheme oxide‐chitosan/hemoglobin nanocomposite
  6. electrochemical sensors
  7. electrochemical synthesis, of conducting polymers
  8. electropolymerization process
  9. elongation at break
    1. PU/clay nanocomposites
  10. enzymatic polymerization, of PDA
  11. enzyme‐based glucose sensing device
  12. enzyme immobilization
  13. enzyme‐immobilized biosensors
  14. ethyl cellulose (EC)
    1. biological efficacy of PANI‐based composites and
    2. EC‐based composites
      1. activation energies
      2. conductivity of
      3. electrode potentials
    3. EC‐inorganic composites, synthesis of
  15. eumelanin
  16. extended graphite
  17. extrinsic self‐healing

 

  1. f
  2. FECTs‐based glucose sensor
  3. ferrites
  4. ferrocene mediated electrochemical biosensor
  5. FET H2O2 biosensor
  6. fibre‐based self‐healing approach
  7. fibronectin, cell adsorption property of
  8. film casting method
  9. film deposition approach, for PMNC preparation
  10. first generation biosensors

 

  1. g
  2. glucose biosensors
    1. boron nitride nanotubes‐PANI‐PtNPs hybrid
    2. cytochrome c/AuNPs/PANI nanospheres
    3. from PtNPs/PANI hydrogel
    4. GOX immobilized on PANI‐NT
    5. PANI‐SWCNTs hybrid system
  3. glucose sensors
  4. GOX/TiO2‐NPs/PANI/glassy carbon electrode
  5. graphene (GN)
  6. graphene‐based PANI nanocomposites
  7. graphene‐based polymer composites
  8. graphene oxide (GO)
    1. preparation methods
  9. graphene/PVP/PANI nanocomposites modified paper based biosensor
  10. graphite intercalated compounds

 

  1. h
  2. HDPE nanocomposites, thermal conductivity of
  3. healing compatibility
  4. H2O2 biosensors
  5. HP/PPy/GO nanosheets
  6. Hummer's method
  7. hybrid gel based conductive material
  8. hydrogen peroxide (H2O2) sensors

 

  1. i
  2. immunosensors
    1. aflatoxin B1 study
    2. alpha‐fetoprotein detection
    3. carbohydrate antigen 72‐4 detection
    4. microcystin‐LR analysis
    5. prostate‐specific antigen detection
    6. sensitivity
  3. in situ oxidative polymerization method
  4. insitu polymerization method
  5. in situ polymerization strategy, for PMNC preparation
  6. insulin detection, SPR immunosensor for
  7. intrinsic self‐healing
  8. ionic liquid-carbon paste electrode (IL-CPE)
  9. iron oxide nanoparticles/chitosan graft‐polyaniline nanocomposite film
  10. iron oxide nanoparticles (IONPs@PPy‐PEG)

 

  1. k
  2. kanamycin analysis

 

  1. l
  2. laccase‐catalyzed polymerization
  3. laminin protein, cell adsorption property of
  4. latex technology
  5. L929 fibroblasts, cell adhesion potential of
  6. light transmittance, in polycarbonate/alumina composite
  7. L929 murine fibroblasts

 

  1. m
  2. magnetic hysteresis loops, PEDOT/PSS‐Fe3O4 nanocomposites
  3. magnetic nanoparticles‐based multifunctional polymer nanocomposites
  4. magnetic semiconductor based polymer nanocomposites, biocompatibility
  5. magnetic semiconductor nanoparticles
    1. based polymer nanocomposites
    2. dilute magnetic semiconductors
    3. ferrites
    4. manganites
    5. metal and metal oxide nanoparticles
  6. magnetoelectric polymeric nanocomposites
  7. malathion detection
  8. manganites
  9. mediator‐free H2O2 biosensor
  10. melanin broadband optical absorbance spectrum
  11. melanin conductivity
    1. amorphous semiconductor model
    2. spin muon resonance model
  12. melanin dark conductivity vs. water content
  13. melt processing technique
  14. mesoporous SiO2
  15. microbial biosensor
  16. MRI‐guided chemo‐thermal treatment
  17. Mycobacterium tuberculosis nucleic acid biosensor

 

  1. n
  2. Nafion-AgCl@PANI‐GC electrode
  3. nano‐Prussian blue-chitosan film
  4. nerve tissue engineering
  5. neural prosthetics
  6. NiCo/PPy/RGO nanocomposites
  7. NIH‐3T3 fibroblasts
  8. nucleic acid biosensors

 

  1. o
  2. optical biosensors
  3. organic polymer‐based inorganic nanoparticle composites
  4. organic semiconductors

 

  1. p
  2. PANI‐Ag‐Pt nanocomposite
  3. PANI‐based composites
    1. biological efficacy of ethyl cellulose and
    2. conductivity of
    3. galvanostatic discharge curves
    4. synthesis of
  4. PANI‐based 2‐hydroxyethylcellulose‐polyaniline (HEC‐PANI) nanocomposite cryogens
  5. PANI composites, interaction with CNTs and GN
    1. cholesterol biosensors
    2. glucose biosensors
    3. hydrogen peroxide (H2O2) sensors
    4. nucleic acid biosensors
  6. PANI nanotubes/Au hybrid nanostructures
  7. PANI/PCL‐mesoporous silicon supported composite
  8. PANI polymer
    1. conductivity of
    2. conductivity of PANI‐based composites
    3. galvanostatic discharge curves
    4. protonation and deprotonation of
    5. synthesis of PANI‐based composites
  9. PANI supported nano‐hybrid materials
    1. antimicrobial activity
    2. biocompatibility
    3. tissue engineering
  10. PC‐12 cells cultivation
  11. PDA fluorescence organic nanoparticles (PDA‐FONs)
  12. PDA-laccase-MWCNTs nanocomposite film
  13. PDA‐modified SiO2 scaffolds
  14. PDAs@CP3‐DOX
  15. phenazopyridine hydrochloride determination
  16. phenolic compounds biosensors
  17. photoconductivity experiments, of melanin
  18. photothermal therapy (PTT)
  19. polyaniline (PANI)
    1. biosensor applications
    2. chemical structure
    3. drawbacks
    4. high electrical conductivity
    5. oxidized and reduced forms
    6. platelet adsorption
  20. polyaniline based biosensors
    1. genetic materials
    2. glucose biosensors
    3. peroxide biosensors
    4. scientific concerns and future prospects
    5. for water quality assessment
  21. polydopamine (PDA)
    1. adhesive property
    2. biocompatibility and biodegradation property
    3. biomedical applications
  22. polydopamine (PDA).)
    1. coating and strong adhesive applications
    2. electrical conductivity
    3. electrical properties
    4. energy‐related application
    5. nanotube synthesis
    6. optical properties
    7. polymerization
    8. synthesis
    9. zwitterionic property
  23. polyethylene/clay nanocomposite preparation
  24. poly(3,4‐ethylenedioxythiophene)poly(4‐styrenesulphonate) (PEDOTPSS)
  25. poly(ethylene glycol) methyl ether‐tetraamine composite
  26. polyglycerol dendrimers‐PANI diluted extracts
  27. poly(3‐hexylthiophene) (P3HT)
  28. poly(2‐hydroxyethyl methacrylate)‐single‐walled carbon nanotube composites
  29. poly‐L‐Lysine dendrimers
  30. polymer‐based nanocomposites
    1. biocompatibility of
    2. biomedical applications
  31. polymer‐graphene nanocomposites
  32. polymer‐inorganic nanocomposite (PINCs)
    1. aptamer sensors
    2. DNA biosensors
    3. electrical properties
    4. immunosensors
    5. magnetic properties
    6. mechanical properties
    7. optical properties
    8. simple melt compounding method
    9. synthesis routes, schematic representation
    10. thermal properties
  33. polymer/magnetic semiconductor nanocomposites (PMNCs)
    1. amalgamation
    2. chemical preparation techniques
    3. physical preparation techniques
  34. polymer nanocomposite‐based DNA sensors
  35. polyphenol oxidases-gold nanoparticles-graphene‐chitosan hybrid film
  36. polypyrrole (PPy)
    1. biosensor applications
    2. chemical structure
  37. polypyrrole‐chitosan‐iron oxide nanocomposite films
  38. polypyrrole cross‐linked chitosan/glucose oxidase/gold bionanocomposite film
  39. polypyrrole derivative
  40. polyurethane (PU)‐based clay nanocomposites
  41. potentiometric biosensors
  42. PPy and PTh composites, interaction with CNTs and GN

 

  1. r
  2. rabbit IgG antigen detection, immunosensor for
  3. reduced graphene oxide (rGO)
  4. rGO/PPy/AuNP biosensor
  5. rutin determination

 

  1. s
  2. saturation magnetization
    1. of PANI/Fe3O4@Au nanocomposite
    2. of PANI/Fe3O4 nanocomposite
    3. of PPy/SrFe12O19 nanocomposite
  3. self‐healing, definition of
  4. self healing materials
    1. classification of
    2. conductivity in
    3. future prospects
    4. history of
    5. polymers
    6. structural
    7. use
  5. self‐healing polymer systems, under quasi‐static fracture
  6. self‐healing thermally conductive polymer composites
  7. self‐repairing
  8. serotonin (5‐HT) biosensor preparation scheme
  9. sialic acid detection
  10. silicon rubber (SR) filled with graphite nanoplatelet synthesis
  11. skeletal muscle cells, biocompatible behavior of
  12. solution casting method
  13. solvent mixing method
  14. spin muon resonance model (SMRM), of melanin conductivity
  15. ssDNA/PANI/graphene/GCE electrode preparation technique
  16. Staudenmaier's method
  17. stress-strain curves, for PU/clay films
  18. structural self‐healing materials
  19. sub‐micron size PDA particles
  20. sulfonated polyaniline (SPAN)
  21. super‐paramagnetic iron oxide nanoparticles (SPIONs)
  22. surface plasmon resonance (SPR) biosensor
  23. synthetic melanin

 

  1. t
  2. tensile strength, PU/clay nanocomposites
  3. theranostics
  4. thermal conductivity, of HDPE nanocomposites
  5. thermally reduced graphene oxide (TRGO)
  6. thrombin determination
  7. TiO2@polydopamine photocatalyst
  8. tissue engineering
    1. camphorsulfonic acid‐PANI/poly(L‐lactide‐co‐e‐caprolactone nanofibers
    2. chitosan‐gelatin/nanohydroxyapatite polyaniline composite scaffolds
    3. PANI‐Ag‐Pt nanocomposite
    4. PANI‐based 2‐hydroxyethylcellulose‐polyaniline (HEC‐PANI) nanocomposite cryogens
    5. PANI/PCL‐mesoporous silicon supported composite
    6. PANI‐poly(3‐hydroxybutyric acid) matrix
    7. poly(ethylene glycol) methyl ether‐tetraamine composite
    8. polyglycerol dendrimers‐PANI diluted extracts
  9. tissue engineering application, of PDA
  10. total dissolved salts (TDS)
  11. transparencies, of PINC
  12. transparent polymethyl methacrylate (PMMA)‐ZnO nanocomposite preparation

 

  1. v
  2. vascular self‐healing materials
  3. voltammetric strategy

 

  1. w
  2. water‐melanin adsorption isotherm
  3. water quality assessment, PANI based biosensor for
  4. whole bacterial cell‐based biosensor
  5. woven glucose sensing sensors

 

  1. z
  2. zwitterionic property
..................Content has been hidden....................

You can't read the all page of ebook, please click here login for view all page.
Reset
18.116.51.117