Nanocarbon-Based Composites and Their Thermal, Electrical, and Mechanical Properties
This Topical Collection is committed to exploring novel nanocomposite materials reinforced with carbon nanostructures for improved mechanical, thermal, and electrical properties. This Topical Collection covers the development of metallic, ceramic, and polymeric multifunctional nanocomposites through...
में बचाया:
| स्वरूप: | Online |
|---|---|
| भाषा: | अंग्रेज़ी |
| प्रकाशित: |
MDPI - Multidisciplinary Digital Publishing Institute
2025
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| विषय: | |
| ऑनलाइन पहुंच: | ONIX_20250812T110751_9783725836857_133 |
| टैग: |
कोई टैग नहीं, इस रिकॉर्ड को टैग करने वाले पहले व्यक्ति बनें!
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| _version_ | 1869522530445819904 |
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| collection | Directory of Open Access Books |
| description | This Topical Collection is committed to exploring novel nanocomposite materials reinforced with carbon nanostructures for improved mechanical, thermal, and electrical properties. This Topical Collection covers the development of metallic, ceramic, and polymeric multifunctional nanocomposites through the incorporation of graphene-based materials, carbon nanotubes, fullerenes, nanodiamonds, and nanohorns. Carbon nanomaterials with different dimensions are characterized by excellent mechanical resistance, electrical and thermal conductivity, and high versatility for chemical surface functionalization. This is a critical feature for modulating their interfaces at the atomic level for improved dispersibility and compatibility with several matrices. Within this context, this Topical Collection is dedicated to manufacturing processes, simulation prediction and analysis, and structural characterization of the carbon-based nanocomposite. |
| format | Online |
| id | doab-20.500.12854ir-165377 |
| institution | Directory of Open Access Books |
| language | eng |
| publishDate | 2025 |
| publishDateRange | 2025 |
| publishDateSort | 2025 |
| publisher | MDPI - Multidisciplinary Digital Publishing Institute |
| publisherStr | MDPI - Multidisciplinary Digital Publishing Institute |
| record_format | ojs |
| spelling | doab-20.500.12854ir-1653772025-08-12T09:25:56Z Nanocarbon-Based Composites and Their Thermal, Electrical, and Mechanical Properties Goncalves, Gil thermal interface materials graphene reliability power cycling temperature cycling accelerated aging thermal conductivity flammability flame-retardant polyurethane foams bio-polyol expandable graphite graphite stacking faults interfaces transport carbon fiber reinforced plastics (CFRP) energy absorption composite materials thin walled tubes damage quasi-static loading pulsed laser ablation nanodiamonds NV-centers methane hydrogen carbon catalytic decomposition wet decomposition dry decomposition hydrogen economy XPS oxygen fitting quantification fused filament fabrication (FFF) three-dimensional (3D) printing conductive polymer composites (CPCs) nanocomposites electrothermal effect antibacterial properties temperature passive cooling power density heat sink VLSI cooling thermal resistance a-C:H grain development PECVD plasma coating gradual film deposition synchrotron radiation a-C:H-polymer interlayer surface morphology carbon nanotubes double-walled linear vibrations Sanders–Koiter theory simplified shell models PCBM conformer structure nanolayered graphene thin film two-dimensional nanomaterial localized growth plasma-enhanced atomic layer deposition magnetic nanoporous superabsorbent polymers hexavalent chromium adsorption MWCNT mechanical properties electrical properties synthesis fabrication atmospheric plasma carbon nanomaterials graphene oxide plasma treatment poly(lactic acid) graphene nanoscrolls crystallization kinetics nanoindentation chemical vapor deposition supercapacitors batteries photocatalyst carbon nanotube (CNT)/Cu composites nanotube attributes electrical conductivity temperature-coefficient of resistance vertically aligned carbon nanotubes catalyst catalyst support nanoparticles monolayer ZnSe ZnS surface laser-oriented deposition spectra microhardness wetting angle MD carbon nanotube electrical conductor annealing energy cellulose carbonization disorder Raman XRD crystallite size HRTEM reduced graphene oxide polymer vacuum filtration freestanding electrode flexible supercapacitors aminated graphene ozonized graphene functionalized catalyst carrier carbon-supported platinum nanoparticle platinum utilization functional group polyol reduction polymer electrolyte membrane fuel cell PEMFC biopolymer graphitization sugar templating hydroiodic acid sodium borohydride chemical analysis CBMs laser 2D materials LCVD nanodiamond soot polymer nanocomposites carbon black conductivity tribology carbon fiber reinforced polymer materials (CFRP) polycrystalline diamond coatings tungsten carbide adhesion buffer layer diamond tools hardness wear resistance CVD cement molecular mechanics molecular dynamics pull-out interfacial shear strength galvanic coupling CFRP carbon surfaces cathodic polarization oxygen reduction reactions (ORR) multi-material combinations nano-graphite nanocomposite solar cell electronics fine blanking galling-free high-speed steel punch titanium carbon supersaturation free carbon tribofilm in situ solid lubrication high qualification of blanks Joule heating activated carbon electrical resistivity para-aramid wastes epoxy aerospace mechanical thermal ceramic cutters cutting ceramics coefficient of friction (CrAlSi)N sublayer DLC-Si coatings high-temperature wear SiAlON sp3- and sp2-hybridizations carbon nanotube (CNT) modulus waviness Monte Carlo simulation reduced graphene oxide (rGO) graphene oxide (GO) laser reduction electrode impedance humidity sensing applied mineralogy experimental petrology mineral technology natural graphene mineral feedstock clay thermoplastic polymer processability processing aid rheology carbon nanohorns electrical contact resistance tarnished silver low temperature MPCVD diamond integrated circuit graphite paste carbon allotropes DFT topology crystal structure equation of state elastic constants phonons electronic band structures n/a thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues::TBX History of engineering and technology This Topical Collection is committed to exploring novel nanocomposite materials reinforced with carbon nanostructures for improved mechanical, thermal, and electrical properties. This Topical Collection covers the development of metallic, ceramic, and polymeric multifunctional nanocomposites through the incorporation of graphene-based materials, carbon nanotubes, fullerenes, nanodiamonds, and nanohorns. Carbon nanomaterials with different dimensions are characterized by excellent mechanical resistance, electrical and thermal conductivity, and high versatility for chemical surface functionalization. This is a critical feature for modulating their interfaces at the atomic level for improved dispersibility and compatibility with several matrices. Within this context, this Topical Collection is dedicated to manufacturing processes, simulation prediction and analysis, and structural characterization of the carbon-based nanocomposite. 2025-08-12T09:25:54Z 2025-08-12T09:25:54Z 2025 book ONIX_20250812T110751_9783725836857_133 9783725836857 9783725836864 https://directory.doabooks.org/handle/20.500.12854/165377 eng image/jpeg Attribution 4.0 International https://mdpi.com/books https://mdpi.com/books/pdfview/book/10855 MDPI - Multidisciplinary Digital Publishing Institute 10.3390/books978-3-7258-3686-4 10.3390/books978-3-7258-3686-4 46cabcaa-dd94-4bfe-87b4-55023c1b36d0 9783725836857 9783725836864 700 open access |
| spellingShingle | thermal interface materials graphene reliability power cycling temperature cycling accelerated aging thermal conductivity flammability flame-retardant polyurethane foams bio-polyol expandable graphite graphite stacking faults interfaces transport carbon fiber reinforced plastics (CFRP) energy absorption composite materials thin walled tubes damage quasi-static loading pulsed laser ablation nanodiamonds NV-centers methane hydrogen carbon catalytic decomposition wet decomposition dry decomposition hydrogen economy XPS oxygen fitting quantification fused filament fabrication (FFF) three-dimensional (3D) printing conductive polymer composites (CPCs) nanocomposites electrothermal effect antibacterial properties temperature passive cooling power density heat sink VLSI cooling thermal resistance a-C:H grain development PECVD plasma coating gradual film deposition synchrotron radiation a-C:H-polymer interlayer surface morphology carbon nanotubes double-walled linear vibrations Sanders–Koiter theory simplified shell models PCBM conformer structure nanolayered graphene thin film two-dimensional nanomaterial localized growth plasma-enhanced atomic layer deposition magnetic nanoporous superabsorbent polymers hexavalent chromium adsorption MWCNT mechanical properties electrical properties synthesis fabrication atmospheric plasma carbon nanomaterials graphene oxide plasma treatment poly(lactic acid) graphene nanoscrolls crystallization kinetics nanoindentation chemical vapor deposition supercapacitors batteries photocatalyst carbon nanotube (CNT)/Cu composites nanotube attributes electrical conductivity temperature-coefficient of resistance vertically aligned carbon nanotubes catalyst catalyst support nanoparticles monolayer ZnSe ZnS surface laser-oriented deposition spectra microhardness wetting angle MD carbon nanotube electrical conductor annealing energy cellulose carbonization disorder Raman XRD crystallite size HRTEM reduced graphene oxide polymer vacuum filtration freestanding electrode flexible supercapacitors aminated graphene ozonized graphene functionalized catalyst carrier carbon-supported platinum nanoparticle platinum utilization functional group polyol reduction polymer electrolyte membrane fuel cell PEMFC biopolymer graphitization sugar templating hydroiodic acid sodium borohydride chemical analysis CBMs laser 2D materials LCVD nanodiamond soot polymer nanocomposites carbon black conductivity tribology carbon fiber reinforced polymer materials (CFRP) polycrystalline diamond coatings tungsten carbide adhesion buffer layer diamond tools hardness wear resistance CVD cement molecular mechanics molecular dynamics pull-out interfacial shear strength galvanic coupling CFRP carbon surfaces cathodic polarization oxygen reduction reactions (ORR) multi-material combinations nano-graphite nanocomposite solar cell electronics fine blanking galling-free high-speed steel punch titanium carbon supersaturation free carbon tribofilm in situ solid lubrication high qualification of blanks Joule heating activated carbon electrical resistivity para-aramid wastes epoxy aerospace mechanical thermal ceramic cutters cutting ceramics coefficient of friction (CrAlSi)N sublayer DLC-Si coatings high-temperature wear SiAlON sp3- and sp2-hybridizations carbon nanotube (CNT) modulus waviness Monte Carlo simulation reduced graphene oxide (rGO) graphene oxide (GO) laser reduction electrode impedance humidity sensing applied mineralogy experimental petrology mineral technology natural graphene mineral feedstock clay thermoplastic polymer processability processing aid rheology carbon nanohorns electrical contact resistance tarnished silver low temperature MPCVD diamond integrated circuit graphite paste carbon allotropes DFT topology crystal structure equation of state elastic constants phonons electronic band structures n/a thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues::TBX History of engineering and technology Nanocarbon-Based Composites and Their Thermal, Electrical, and Mechanical Properties |
| title | Nanocarbon-Based Composites and Their Thermal, Electrical, and Mechanical Properties |
| title_full | Nanocarbon-Based Composites and Their Thermal, Electrical, and Mechanical Properties |
| title_fullStr | Nanocarbon-Based Composites and Their Thermal, Electrical, and Mechanical Properties |
| title_full_unstemmed | Nanocarbon-Based Composites and Their Thermal, Electrical, and Mechanical Properties |
| title_short | Nanocarbon-Based Composites and Their Thermal, Electrical, and Mechanical Properties |
| title_sort | nanocarbon based composites and their thermal electrical and mechanical properties |
| topic | thermal interface materials graphene reliability power cycling temperature cycling accelerated aging thermal conductivity flammability flame-retardant polyurethane foams bio-polyol expandable graphite graphite stacking faults interfaces transport carbon fiber reinforced plastics (CFRP) energy absorption composite materials thin walled tubes damage quasi-static loading pulsed laser ablation nanodiamonds NV-centers methane hydrogen carbon catalytic decomposition wet decomposition dry decomposition hydrogen economy XPS oxygen fitting quantification fused filament fabrication (FFF) three-dimensional (3D) printing conductive polymer composites (CPCs) nanocomposites electrothermal effect antibacterial properties temperature passive cooling power density heat sink VLSI cooling thermal resistance a-C:H grain development PECVD plasma coating gradual film deposition synchrotron radiation a-C:H-polymer interlayer surface morphology carbon nanotubes double-walled linear vibrations Sanders–Koiter theory simplified shell models PCBM conformer structure nanolayered graphene thin film two-dimensional nanomaterial localized growth plasma-enhanced atomic layer deposition magnetic nanoporous superabsorbent polymers hexavalent chromium adsorption MWCNT mechanical properties electrical properties synthesis fabrication atmospheric plasma carbon nanomaterials graphene oxide plasma treatment poly(lactic acid) graphene nanoscrolls crystallization kinetics nanoindentation chemical vapor deposition supercapacitors batteries photocatalyst carbon nanotube (CNT)/Cu composites nanotube attributes electrical conductivity temperature-coefficient of resistance vertically aligned carbon nanotubes catalyst catalyst support nanoparticles monolayer ZnSe ZnS surface laser-oriented deposition spectra microhardness wetting angle MD carbon nanotube electrical conductor annealing energy cellulose carbonization disorder Raman XRD crystallite size HRTEM reduced graphene oxide polymer vacuum filtration freestanding electrode flexible supercapacitors aminated graphene ozonized graphene functionalized catalyst carrier carbon-supported platinum nanoparticle platinum utilization functional group polyol reduction polymer electrolyte membrane fuel cell PEMFC biopolymer graphitization sugar templating hydroiodic acid sodium borohydride chemical analysis CBMs laser 2D materials LCVD nanodiamond soot polymer nanocomposites carbon black conductivity tribology carbon fiber reinforced polymer materials (CFRP) polycrystalline diamond coatings tungsten carbide adhesion buffer layer diamond tools hardness wear resistance CVD cement molecular mechanics molecular dynamics pull-out interfacial shear strength galvanic coupling CFRP carbon surfaces cathodic polarization oxygen reduction reactions (ORR) multi-material combinations nano-graphite nanocomposite solar cell electronics fine blanking galling-free high-speed steel punch titanium carbon supersaturation free carbon tribofilm in situ solid lubrication high qualification of blanks Joule heating activated carbon electrical resistivity para-aramid wastes epoxy aerospace mechanical thermal ceramic cutters cutting ceramics coefficient of friction (CrAlSi)N sublayer DLC-Si coatings high-temperature wear SiAlON sp3- and sp2-hybridizations carbon nanotube (CNT) modulus waviness Monte Carlo simulation reduced graphene oxide (rGO) graphene oxide (GO) laser reduction electrode impedance humidity sensing applied mineralogy experimental petrology mineral technology natural graphene mineral feedstock clay thermoplastic polymer processability processing aid rheology carbon nanohorns electrical contact resistance tarnished silver low temperature MPCVD diamond integrated circuit graphite paste carbon allotropes DFT topology crystal structure equation of state elastic constants phonons electronic band structures n/a thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues::TBX History of engineering and technology |
| topic_facet | thermal interface materials graphene reliability power cycling temperature cycling accelerated aging thermal conductivity flammability flame-retardant polyurethane foams bio-polyol expandable graphite graphite stacking faults interfaces transport carbon fiber reinforced plastics (CFRP) energy absorption composite materials thin walled tubes damage quasi-static loading pulsed laser ablation nanodiamonds NV-centers methane hydrogen carbon catalytic decomposition wet decomposition dry decomposition hydrogen economy XPS oxygen fitting quantification fused filament fabrication (FFF) three-dimensional (3D) printing conductive polymer composites (CPCs) nanocomposites electrothermal effect antibacterial properties temperature passive cooling power density heat sink VLSI cooling thermal resistance a-C:H grain development PECVD plasma coating gradual film deposition synchrotron radiation a-C:H-polymer interlayer surface morphology carbon nanotubes double-walled linear vibrations Sanders–Koiter theory simplified shell models PCBM conformer structure nanolayered graphene thin film two-dimensional nanomaterial localized growth plasma-enhanced atomic layer deposition magnetic nanoporous superabsorbent polymers hexavalent chromium adsorption MWCNT mechanical properties electrical properties synthesis fabrication atmospheric plasma carbon nanomaterials graphene oxide plasma treatment poly(lactic acid) graphene nanoscrolls crystallization kinetics nanoindentation chemical vapor deposition supercapacitors batteries photocatalyst carbon nanotube (CNT)/Cu composites nanotube attributes electrical conductivity temperature-coefficient of resistance vertically aligned carbon nanotubes catalyst catalyst support nanoparticles monolayer ZnSe ZnS surface laser-oriented deposition spectra microhardness wetting angle MD carbon nanotube electrical conductor annealing energy cellulose carbonization disorder Raman XRD crystallite size HRTEM reduced graphene oxide polymer vacuum filtration freestanding electrode flexible supercapacitors aminated graphene ozonized graphene functionalized catalyst carrier carbon-supported platinum nanoparticle platinum utilization functional group polyol reduction polymer electrolyte membrane fuel cell PEMFC biopolymer graphitization sugar templating hydroiodic acid sodium borohydride chemical analysis CBMs laser 2D materials LCVD nanodiamond soot polymer nanocomposites carbon black conductivity tribology carbon fiber reinforced polymer materials (CFRP) polycrystalline diamond coatings tungsten carbide adhesion buffer layer diamond tools hardness wear resistance CVD cement molecular mechanics molecular dynamics pull-out interfacial shear strength galvanic coupling CFRP carbon surfaces cathodic polarization oxygen reduction reactions (ORR) multi-material combinations nano-graphite nanocomposite solar cell electronics fine blanking galling-free high-speed steel punch titanium carbon supersaturation free carbon tribofilm in situ solid lubrication high qualification of blanks Joule heating activated carbon electrical resistivity para-aramid wastes epoxy aerospace mechanical thermal ceramic cutters cutting ceramics coefficient of friction (CrAlSi)N sublayer DLC-Si coatings high-temperature wear SiAlON sp3- and sp2-hybridizations carbon nanotube (CNT) modulus waviness Monte Carlo simulation reduced graphene oxide (rGO) graphene oxide (GO) laser reduction electrode impedance humidity sensing applied mineralogy experimental petrology mineral technology natural graphene mineral feedstock clay thermoplastic polymer processability processing aid rheology carbon nanohorns electrical contact resistance tarnished silver low temperature MPCVD diamond integrated circuit graphite paste carbon allotropes DFT topology crystal structure equation of state elastic constants phonons electronic band structures n/a thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues::TBX History of engineering and technology |
| url | ONIX_20250812T110751_9783725836857_133 |