"Dispersion and Performance Properties of Carbon Nanotubes (CNTs) Based Polymer Composites: A Review"
written by Bhagwan F. Jogi, Mayur Sawant, Madan Kulkarni, Prakash K. Brahmankar,
published by Journal of Encapsulation and Adsorption Sciences, Vol.2 No.4, 2012
has been cited by the following article(s):
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[8] Electrical Transport Properties Of Poly (aniline-co-n-phenylaniline) Copolymers
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[9] Large-scale atomistic simulations of CNT-reinforced thermoplastic polymers
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[10] Polyvinylpyrrolidone/Carbon Nanotube/Cotton Functional Nanocomposite: Preparation and Characterization of Properties
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[12] Multiwalled carbon nanotube promotes crystallisation while preserving co-continuous phase morphology of polycarbonate/polypropylene blend
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[13] MODE I INTERLAMINAR FRACTURE TOUGHNESS OF CARBON NANOTUBE WEB-MODIFIED POLYMER COMPOSITES
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[14] Theoretical prediction of interfacial properties of PBT/CNT nanocomposites and its experimental evaluation
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[15] The Effect of Carbon Nanotubes Concentration on Complex Permittivity of Nanocomposites
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[16] Electrically Insulated Epoxy Nanocomposites Reinforced with Synergistic Core–Shell SiO2@MWCNTs and Montmorillonite Bifillers
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[17] An optimal reduction technique for rGO/ABS composites having high-end dynamic properties based on Cole-Cole plot, degree of entanglement and C-factor
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[18] Molecular dynamics simulations of the effect of waviness and agglomeration of CNTs on interface strength of thermoset nanocomposites
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[19] Phosphorus-functionalized multi-wall carbon nanotubes as flame-retardant additives for polystyrene and poly (methyl methacrylate)
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[20] Experimental study on micro manufacturing of carbon nanotube (CNT) plastic composites
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[21] THE INFLUENCE OF MULTI-WALLED CARBON NANOTUBES ON THE NUCLEATION, CRYSTALLIZATION AND TENSILE PROPERTIES OF PA-6/MWCNT COMPOSITES
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[22] Preparation and properties of polypropylene-carbon nanotubes nanocomposites for application in bipolar plates
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[23] Preparation and characterization of high-performance wood polymer nanocomposites using multi-walled carbon nanotubes
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[25] 表面活性剂对 CNTs/EP 复合材料性能的影响
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[26] The effect of filler functionalization on dispersion and thermal conductivity of polypropylene/multi wall carbon nanotubes composites
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[27] Ultrasonically aided extrusion in preparation of polymer composites with carbon fillers
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[28] Multiscale modeling of the effect of waviness and agglomeration of CNTs on the elastic properties of nanocomposites
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[29] Carbon Nanofibres and Nanotubes for Composite Applications
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[30] Ultrasonically assisted compounding of CNT with polypropylenes of different molecular weights
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[31] Carbon Containing Nanostructured Polymer Blends
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[32] PRODUCTION OF POLYCARBONATE AND MULTI-WALLED CARBON NANOTUBES NANOCOMPOSITES AT LOW FILLER LOADINGS
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[33] Laboratory development and molecular-scale simulation of sensor-enabled geogrids
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[34] Étude, synthèse et élaboration de nanocharges biphasées, nanotubes de carbone/diatomées pour l'amélioration des propriétés physiques de nanocomposites à …
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[35] Effect of CNT as a Nucleating Agent on Cell Morphology and Thermal Insulation Property of the Rigid Polyurethane Foams
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[36] Polystyrene-block-poly (tert-butyl methacrylate)/multiwall carbon nanotube ternary conducting polymer nanocomposites based on compatibilizers: preparation, characterization and vapor sensing applications
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[37] Three-dimensional imaging and quantitative analysis of dispersion and mechanical failure in filled nanocomposites
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[38] Thermal Spectroscopy and Kinetic Studies of PEO/PVDF Loaded by Carbon Nanotubes
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[39] Modelling the effect of carbon nanotube concentration on hydrophilicity of functionlized carbon nanotube infused polysulfone membrane
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[40] Performance of Carbon Nanotubes (CNT) Based Natural Rubber Composites: A Review
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[41] Influence of Graphite Filler on Physicochemical Characteristics of Polymer/Graphite Composites: A Review
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[42] Polystyrene-block-poly (tert-butyl methacrylate)/multiwall carbon nanotube ternary conducting polymer nanocomposites based on compatibilizers: preparation …
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[43] Étude, synthèse et élaboration de nanocharges biphasées, nanotubes de carbone/diatomées pour l'amélioration des propriétés physiques de nanocomposites …
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[44] Resonance Tracking Atomic Force Acoustic Microscopy Quantitative Modulus Mapping of Carbon Nanotubes-Reinforced Acrylonitrile–Butadiene–Styrene Polymer
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[45] Nylon 6/multiwalled carbon nanotube composites: Effect of the melt‐compounding conditions and nanotube content on the morphology, mechanical properties, and …
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[46] Resonance tracking atomic force acoustic microscopy quantitative modulus mapping of carbon nanotubes-reinforced acrylonitrile-butadiene-styrene polymer
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[47] Nylon 6/multiwalled carbon nanotube composites: Effect of the melt‐compounding conditions and nanotube content on the morphology, mechanical properties, and rheology
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[48] Morphology and tensile properties of unreinforced and short carbon fibre reinforced Nylon 6/multiwalled carbon nanotube-composites
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[49] Resonance tracking atomic force acoustic microscopy quantitative modulus mapping of carbon nanotubes‐reinforced acrylonitrile–butadiene–styrene polymer
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[50] Hybrid carbon nanotube/polymer heterointerface organic field effect transistor
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[51] Analysis of microwave absorbing properties of epoxy MWCNT composites
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[52] Carbon nanotube embedded poly 1, 5-diaminonapthalene modified pyrolytic graphite sensor for the determination of sulfacetamide in pharmaceutical formulations
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[53] Treatment Method for Dispersion of Carbon Nanotubes: A Review
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[54] Microwave absorption properties in epoxy resin multi walled carbon nanotubes composites
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[55] Modeling electrical conductivity of nanocomposites by considering carbon nanotube deformation at nanotube junctions
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[56] Microwave Absorbing Properties of Multi Walled Carbon Nanotubes
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