Listing 1 - 6 of 6 |
Sort by
|
Choose an application
MESOPHASE --- PHYSICOCHEMICAL SIMULATION --- MESOPHASE --- PHYSICOCHEMICAL SIMULATION
Choose an application
MESOPHASE --- CRYSTAL STRUCTURE --- MESOPHASE --- CRYSTAL STRUCTURE
Choose an application
This Special Issue on “Fabrication of Carbon and related materials/ Metal Hybrids and Composites” presents the importance of the development of new composite and hybrid materials in different fields. It consists of 17 articles contributed by authors from different countries all over the world. The articles can be categorized into four classes. The first class of includes articles focusing on the synthesis of carbon fibers, carbon nanotubes, and graphene hybrid and composite materials. The results include the developments of the methodology and know-how of the synthesis and functionalization of the graphene surface of fibers and nanotubes and their effects on binding with the metal matrix. The second class focuses on the synthesis of new polymeric materials based on pitch/polyethylene composites and their electrical and mechanical properties, including the correlations with its microstructures. Additionally, the second class presents the results of articles, including the synthesis of new biocompatible and eco-friendly metal oxide/polymer materials with antibacterial and antimicrobial activities. The third class includes articles focused on the applications of ceramic metal oxides, such as silica and clays in the development of solar cells and in the fabrications of membranes of water treatments and desalinations. The last part of this Special Issue presents results of the articles focused on high-entropy alloys and metal matrix composites and their weldability.
Technology: general issues --- carbon long fibers --- copper composites --- electroless copper deposition --- electroless silver deposition --- copper electroplating --- contact electrical resistivity --- ultrafiltration --- red clay --- calcium fluoride powder --- wastewater --- oil separation --- ZnO nanoparticles --- green synthesis --- cytotoxicity --- anticancer activity --- chemotherapeutic drugs --- doxorubicin --- gemcitabine --- MDA-MB 231cell line --- triple-negative breast cancer treatment --- high entropy alloys --- electroless copper plating --- thermal expansion --- hardness --- compressive strength --- direct friction stir processing --- in situ composites --- surface composites --- TES --- PCM --- paraffin wax --- multi-walled CNTs --- SEM --- EDX --- TGA --- FTIR --- indentation --- room temperature --- liquid nitrogen temperature --- spalling --- Si-NWs --- nanoscale chemical templating (NCT) --- PV --- copper --- nanocomposites --- metal-matrix composites (MMCs) --- mechanical properties --- spark plasma sintering --- hybrid materials --- chemical precipitation --- Carbopol --- BET surface area --- zeta-potential --- antibacterial activity --- mesophase-pitch --- polyethylene --- carbon-fibres --- morphology --- winder --- blend --- hot pressing --- aluminum matrix composites --- electroless silver and nickel precipitation --- wear resistance --- graphene --- silica --- hybrid composites --- adsorbents --- energy storages --- biomedical fields --- catalysts --- chemical vapor deposition (CVD) --- silicon (Si) --- nanowires (NWs) --- silica microspheres --- photovoltaic (PV) cells --- copper-zinc alloy --- graphene nanosheets --- microstructure --- electrical conductivity --- thermal conductivity --- wear rate --- extrusion --- dwell time --- mesophase pitch --- mixed CNT bundle --- crosstalk delay --- interconnect --- propagation delay --- RLC model --- nanodecoration --- first-principles calculations --- adsorption --- CO2 electroreduction --- carbon long fibers --- copper composites --- electroless copper deposition --- electroless silver deposition --- copper electroplating --- contact electrical resistivity --- ultrafiltration --- red clay --- calcium fluoride powder --- wastewater --- oil separation --- ZnO nanoparticles --- green synthesis --- cytotoxicity --- anticancer activity --- chemotherapeutic drugs --- doxorubicin --- gemcitabine --- MDA-MB 231cell line --- triple-negative breast cancer treatment --- high entropy alloys --- electroless copper plating --- thermal expansion --- hardness --- compressive strength --- direct friction stir processing --- in situ composites --- surface composites --- TES --- PCM --- paraffin wax --- multi-walled CNTs --- SEM --- EDX --- TGA --- FTIR --- indentation --- room temperature --- liquid nitrogen temperature --- spalling --- Si-NWs --- nanoscale chemical templating (NCT) --- PV --- copper --- nanocomposites --- metal-matrix composites (MMCs) --- mechanical properties --- spark plasma sintering --- hybrid materials --- chemical precipitation --- Carbopol --- BET surface area --- zeta-potential --- antibacterial activity --- mesophase-pitch --- polyethylene --- carbon-fibres --- morphology --- winder --- blend --- hot pressing --- aluminum matrix composites --- electroless silver and nickel precipitation --- wear resistance --- graphene --- silica --- hybrid composites --- adsorbents --- energy storages --- biomedical fields --- catalysts --- chemical vapor deposition (CVD) --- silicon (Si) --- nanowires (NWs) --- silica microspheres --- photovoltaic (PV) cells --- copper-zinc alloy --- graphene nanosheets --- microstructure --- electrical conductivity --- thermal conductivity --- wear rate --- extrusion --- dwell time --- mesophase pitch --- mixed CNT bundle --- crosstalk delay --- interconnect --- propagation delay --- RLC model --- nanodecoration --- first-principles calculations --- adsorption --- CO2 electroreduction
Choose an application
This Special Issue on “Fabrication of Carbon and related materials/ Metal Hybrids and Composites” presents the importance of the development of new composite and hybrid materials in different fields. It consists of 17 articles contributed by authors from different countries all over the world. The articles can be categorized into four classes. The first class of includes articles focusing on the synthesis of carbon fibers, carbon nanotubes, and graphene hybrid and composite materials. The results include the developments of the methodology and know-how of the synthesis and functionalization of the graphene surface of fibers and nanotubes and their effects on binding with the metal matrix. The second class focuses on the synthesis of new polymeric materials based on pitch/polyethylene composites and their electrical and mechanical properties, including the correlations with its microstructures. Additionally, the second class presents the results of articles, including the synthesis of new biocompatible and eco-friendly metal oxide/polymer materials with antibacterial and antimicrobial activities. The third class includes articles focused on the applications of ceramic metal oxides, such as silica and clays in the development of solar cells and in the fabrications of membranes of water treatments and desalinations. The last part of this Special Issue presents results of the articles focused on high-entropy alloys and metal matrix composites and their weldability.
Technology: general issues --- carbon long fibers --- copper composites --- electroless copper deposition --- electroless silver deposition --- copper electroplating --- contact electrical resistivity --- ultrafiltration --- red clay --- calcium fluoride powder --- wastewater --- oil separation --- ZnO nanoparticles --- green synthesis --- cytotoxicity --- anticancer activity --- chemotherapeutic drugs --- doxorubicin --- gemcitabine --- MDA-MB 231cell line --- triple-negative breast cancer treatment --- high entropy alloys --- electroless copper plating --- thermal expansion --- hardness --- compressive strength --- direct friction stir processing --- in situ composites --- surface composites --- TES --- PCM --- paraffin wax --- multi-walled CNTs --- SEM --- EDX --- TGA --- FTIR --- indentation --- room temperature --- liquid nitrogen temperature --- spalling --- Si-NWs --- nanoscale chemical templating (NCT) --- PV --- copper --- nanocomposites --- metal-matrix composites (MMCs) --- mechanical properties --- spark plasma sintering --- hybrid materials --- chemical precipitation --- Carbopol --- BET surface area --- zeta-potential --- antibacterial activity --- mesophase-pitch --- polyethylene --- carbon-fibres --- morphology --- winder --- blend --- hot pressing --- aluminum matrix composites --- electroless silver and nickel precipitation --- wear resistance --- graphene --- silica --- hybrid composites --- adsorbents --- energy storages --- biomedical fields --- catalysts --- chemical vapor deposition (CVD) --- silicon (Si) --- nanowires (NWs) --- silica microspheres --- photovoltaic (PV) cells --- copper-zinc alloy --- graphene nanosheets --- microstructure --- electrical conductivity --- thermal conductivity --- wear rate --- extrusion --- dwell time --- mesophase pitch --- mixed CNT bundle --- crosstalk delay --- interconnect --- propagation delay --- RLC model --- nanodecoration --- first-principles calculations --- adsorption --- CO2 electroreduction
Choose an application
This Special Issue on “Fabrication of Carbon and related materials/ Metal Hybrids and Composites” presents the importance of the development of new composite and hybrid materials in different fields. It consists of 17 articles contributed by authors from different countries all over the world. The articles can be categorized into four classes. The first class of includes articles focusing on the synthesis of carbon fibers, carbon nanotubes, and graphene hybrid and composite materials. The results include the developments of the methodology and know-how of the synthesis and functionalization of the graphene surface of fibers and nanotubes and their effects on binding with the metal matrix. The second class focuses on the synthesis of new polymeric materials based on pitch/polyethylene composites and their electrical and mechanical properties, including the correlations with its microstructures. Additionally, the second class presents the results of articles, including the synthesis of new biocompatible and eco-friendly metal oxide/polymer materials with antibacterial and antimicrobial activities. The third class includes articles focused on the applications of ceramic metal oxides, such as silica and clays in the development of solar cells and in the fabrications of membranes of water treatments and desalinations. The last part of this Special Issue presents results of the articles focused on high-entropy alloys and metal matrix composites and their weldability.
carbon long fibers --- copper composites --- electroless copper deposition --- electroless silver deposition --- copper electroplating --- contact electrical resistivity --- ultrafiltration --- red clay --- calcium fluoride powder --- wastewater --- oil separation --- ZnO nanoparticles --- green synthesis --- cytotoxicity --- anticancer activity --- chemotherapeutic drugs --- doxorubicin --- gemcitabine --- MDA-MB 231cell line --- triple-negative breast cancer treatment --- high entropy alloys --- electroless copper plating --- thermal expansion --- hardness --- compressive strength --- direct friction stir processing --- in situ composites --- surface composites --- TES --- PCM --- paraffin wax --- multi-walled CNTs --- SEM --- EDX --- TGA --- FTIR --- indentation --- room temperature --- liquid nitrogen temperature --- spalling --- Si-NWs --- nanoscale chemical templating (NCT) --- PV --- copper --- nanocomposites --- metal-matrix composites (MMCs) --- mechanical properties --- spark plasma sintering --- hybrid materials --- chemical precipitation --- Carbopol --- BET surface area --- zeta-potential --- antibacterial activity --- mesophase-pitch --- polyethylene --- carbon-fibres --- morphology --- winder --- blend --- hot pressing --- aluminum matrix composites --- electroless silver and nickel precipitation --- wear resistance --- graphene --- silica --- hybrid composites --- adsorbents --- energy storages --- biomedical fields --- catalysts --- chemical vapor deposition (CVD) --- silicon (Si) --- nanowires (NWs) --- silica microspheres --- photovoltaic (PV) cells --- copper-zinc alloy --- graphene nanosheets --- microstructure --- electrical conductivity --- thermal conductivity --- wear rate --- extrusion --- dwell time --- mesophase pitch --- mixed CNT bundle --- crosstalk delay --- interconnect --- propagation delay --- RLC model --- nanodecoration --- first-principles calculations --- adsorption --- CO2 electroreduction
Choose an application
This series of books, which is published at the rate of about one per year, addresses fundamental problems in materials science. The contents cover a broad range of topics from small clusters of atoms to engineering materials and involve chemistry, physics, and engineering, with length scales ranging from Ångstromsup to millimeters. The emphasis is on basic science rather than on applications. Each book focuses on a single area ofcurrent interest and brings together leading experts to give an up-to-date discussion of their work and the work ofothers. Each article contains enough references that the interested reader can accesstherelevant literature. Thanks aregiven to the Center forFundamental Materials Research atMichigan State University forsupportingthis series. M.F. Thorpe, Series Editor E-mail: thorpe@pa.msu.edu EastLansing,Michigan, September, 1995 PREFACE This book records selected papers given at an interdisciplinary Symposium on Access in Nanoporous Materials held in Lansing, Michigan, on June 7-9, 1995. Broad interest in the synthesis of ordered materials with pore sizes in the 1.0-10 nm range was clearly manifested in the 64 invited and contributed papers presented by workers in the formal fields of chemistry, physics, and engineering. The intent of the symposium was to bring together a small number ofleading researchers within complementary disciplines to share in the diversity of approaches to nanoporous materials synthesis and characterization.
Porous materials --- Nanostructured materials --- Zeolites --- Chemistry, inorganic. --- Materials. --- Crystallography. --- Inorganic Chemistry. --- Materials Science, general. --- Solid State Physics. --- Spectroscopy and Microscopy. --- Condensed Matter Physics. --- Crystallography and Scattering Methods. --- Inorganic chemistry. --- Materials science. --- Solid state physics. --- Spectroscopy. --- Microscopy. --- Condensed matter. --- Leptology --- Physical sciences --- Mineralogy --- Condensed materials --- Condensed media --- Condensed phase --- Materials, Condensed --- Media, Condensed --- Phase, Condensed --- Liquids --- Matter --- Solids --- Analysis, Microscopic --- Light microscopy --- Micrographic analysis --- Microscope and microscopy --- Microscopic analysis --- Optical microscopy --- Optics --- Analysis, Spectrum --- Spectra --- Spectrochemical analysis --- Spectrochemistry --- Spectrometry --- Spectroscopy --- Chemistry, Analytic --- Interferometry --- Radiation --- Wave-motion, Theory of --- Absorption spectra --- Light --- Spectroscope --- Physics --- Material science --- Inorganic chemistry --- Chemistry --- Inorganic compounds --- Qualitative --- Analytical chemistry --- Chemistry, Inorganic --- Technique. --- Research. --- POROUS MATERIALS --- ZEOLITES --- MOLECULAR SIEVES --- TRANSPORT PROPERTIES --- MESOPHASE --- CARBON --- PROPERTIES
Listing 1 - 6 of 6 |
Sort by
|