Imidic Polymers and Green Polymer Chemistry: New Technology and Developments in Process and Product


Aromatic-Alicyclic Polyimides: From Basic Aspects Toward High TechnologiesBASIC ASPECTS ON POLYIMIDESPROBLEMS ASSOCIATED WITH AROMATIC POLYIMIDESAROMATIC-ALICYCLIC POLYIMIDES AS ALTERNATIVE TO CONVENTIONAL STRUCTURESMOLECULAR DESIGN AND SYNTHESIS METHODS OF TRANSPARENT POLYIMIDESMAIN APPROACHES OF PROCESSINGFILMSFIBERSFOAMSADHESIVESPARTICLESGREEN CHEMISTRY AND POLYIMIDESAROMATIC-ALICYCLIC POLYIMIDES AND THEIR PRACTICAL IMPORTANCESURFACE-RELATED APPLICATIONSSOLAR CELLSBIOMEDICINECONCLUDING REMARKS AND FUTURE PERSPECTIVESKEYWORDSREFERENCESPolyimides with Bulky Groups: Synthesis, Characterization, and Physical PropertiesINTRODUCTIONSYNTHESIS OF THE POLYIMIDESONE-STEP POLYMERIZATIONTWO-STEP POLYMERIZATIONTHERMAL IMIDIZATION OF POLY(AMIC ACID)CHEMICAL IMIDIZATION OF POLY(AMIC ACID)EFFECT OF BULKY GROUPS ON GAS TRANSPORT PROPERTIESEFFECT OF BULKY GROUPS ON PHYSICAL PROPERTIESCALCULATION METHODSEFFECT OF SIDE BULKY GROUPS ON PHYSICAL PROPERTIESRELATIONSHIPS BETWEEN PHYSICAL AND GAS TRANSPORT PROPERTIESACKNOWLEDGMENTKEYWORDSREFERENCESThe Thermal Cis–Trans Isomerization of Azopolyimides in the Solid StateINTRODUCTIONPHOTOISOMERIZATIONKINDS OF AZOPOLYIMIDESCIS-TRANS ISOMERIZATION REACTIONMAIN CHAIN AZOPOLYIMIDEST-TYPE AZOPOLYIMIDESSIDE CHAIN AZO-CO-POLYIMIDES"GUEST-HOST" AZOSYSTEMSAPPLICATIONSCONCLUSIONSKEYWORDSREFERENCESFrom Insulating to Conducting PolyimidesHIGH-TEMPERATURE POLYMERSPOLYIMIDESHISTORY AND STATE OF THE ARTS OF POLYIMIDESINTRODUCTIONCHEMISTRY OF POLYIMIDES AND THEIR SYNTHESIS ROUTESAPPLICATIONS OF POLYIMIDESPOLYIMIDE-BASED COMMERCIAL PRODUCTSPOLYIMIDES AS INSULATORSINSULATION AND DIELECTRIC CONSTANTFUNDAMENTALS OF DIELECTRIC THEORYDIELECTRIC BEHAVIOR OF POLYIMIDESFLUORINATION OF POLYIMIDESSILICON CONTAINING P0LYIMIDESPOROUS POLYIMIDESCROSS-LINKED PОLYIMIDESINORGANIC FILLER CONTAINING POLYIMIDESDIELECTRIC BEHAVIOR OF MALEIMIDE/BIS(MALEIMIDE) POLYMERSDIELECTRIC RELAXATION PROCESSDIELECTRIC RELAXATION PROCESS OF POLYIMIDESDIELECTRIC RELAXATION PROCESS OF MALEIMIDE POLYMERSAPPLICATIONS OF INSULATING POLYIMIDESPOLYIMIDES AS SEMICONDUCTORS/CONDUCTORSCONDUCTIVITY AND MECHANISM OF CONDUCTIONPOLYIMIDE BASED CONDUCTIVE COMPOSITESCONDUCTIVE POLYMER CONTAINING POLYIMIDE COMPOSITESMETALLIC FILLER INCLUDING POLYIMIDE COMPOSITESC-BASED FILLER INCLUDING POLYIMIDE COMPOSITESPERCOLATION THEORY AND CONDUCTION MECHANISMS OF CONDUCTIVE FILLER INCLUDING POLYIMIDESMALEIMIDE/BIS(MALEIMIDE)-BASED CONDUCTIVE COMPOSITESAPPLICATION AREAS OF SEMI/CONDUCTIVE POLYIMIDESCONCLUDING REMARKSKEYWORDSREFERENCESMolecular Modeling of Imidic Polymers with Advanced Physico-Chemical PropertiesINTRODUCTIONPOLYIMIDE MOLECULAR STRUCTURE AND PROPERTIES EVALUATION BY SIMULATIONCOMPUTATIONAL TECHNIQUES APPLIED TO IMIDIC POLYMERSBRIDGING MOLECULAR MODELING WITH EXPERIMENTSSPATIAL MOLECULAR CONFORMATION, POLARIZABILITY, AND DIPOLE MOMENTSMALL-MOLECULE PERMEATIONPIEZOELECTRIC PROPERTIESTHERMAL AND MECHANICAL PROPERTIESMISCIBILITY AND INTERFACIAL ADHESIONCONCLUDING REMARKSKEYWORDSREFERENCESPatterning Polyimide Films at Nanoscale Using Dynamic Plowing LithographyINTRODUCTIONDPL AS A TECHNIQUE FOR NANOSCALE PATTERNINGDEVELOPMENT OF PERIODIC NANOSTRUCTURES ON POLYIMIDE FILMS DURING DPLHIGH-TECH APPLICATIONS OF DPL INDUCED POLYIMIDE PERIODIC NANOSTRUCTURESCONCLUSIONSKEYWORDSREFERENCESPolyimide Materials for Transistors and Biosensors ManufacturingINTRODUCTIONGENERAL ASPECTS ON TRANSISTORSPOLYIMIDE MATERIALS FOR TRANSISTOR MANUFACTURINGPOLYIMIDES AS SUBSTRATESPOLYIMIDES AS GATE DIELECTRICSPROGRESSES IN POLYIMIDE MATERIALS FOR BIOSENSORSCONCLUDING REMARKSKEYWORDSREFERENCESNatural Fibers: Modifications and Enhancements in ApplicationsINTRODUCTIONCLASSIFICATION AND COMPOSITION OF NATURAL FIBERSCHEMICAL COMPOSITION OF NATURAL FIBERSFIBER SURFACES AND INTERFACIAL PROBLEMSSURFACE MODIFICATION TECHNIQUES USED IN NATURAL FIBERSCHEMICAL SURFACE MODIFICATIONMERCERIZATIONACETYLATIONACRYLATION TREATMENTISOCYANATE TREATMENTMALEIC ANHYDRIDE TREATMENTPHYSICAL SURFACE MODIFICATION TECHNIQUESCORONA TREATMENTPLASMA TREATMENTHEAT TREATMENTAPPLICATIONS OF NATURAL FIBERSAUTOMOBILE INDUSTRYCONDUCTING COMPOSITESBARRIER APPLICATIONSDRUG-DELIVERY SYSTEMSBUILDING AND CONSTRUCTION INDUSTRYCONCLUSIONKEYWORDSREFERENCESPolyethylene Wax: Uses, Characterization, and IdentificationINTRODUCTIONPIGMENT MASTERBATCHPCMGRANULATIONMATERIALS AND METHODMATERIALSCHARACTERIZATION METHODSRESULTS AND DISCUSSIONFTIR STUDYX-RAY DIFFRACTIONTGACONCLUSIONKEYWORDSREFERENCESSupercapacitor: An Efficient Approach for Energy Storage DevicesINTRODUCTION TO SUPERCAPACITORSTYPES OF SUPERCAPACITORSMATERIALS USED IN SUPERCAPACITORSCARBON MATERIALSOD CARBON NANOPARTICLESD CARBON NANOPARTICLESD NANOSTRUCTURESD DESIGNMETAL OXIDESSYNTHESIS TECHNIQUE OF CONDUCTING POLYMERS AND THIN FILMS USED AS ELECTRODE MATERIAL FOR SUPERCAPACITORSCHEMICAL OXIDATION METHODRADIO FREQUENCY (RF) PLASMA POLYMERIZATION FOR THE PREPARATION OF POLYMER THIN FILMSFABRICATION OF SUPERCAPACITORSPARAMETERS RESPONSIBLE FOR SUPERCAPACITORS PERFORMANCEACKNOWLEDGMENTKEYWORDSREFERENCESGreen Perspectives of Imides toward Polymeric MembranesINTRODUCTIONSOLVENTS USED IN POLYIMIDE MEMBRANES FABRICATIONCHOICE OF SOLVENTSCRITERIA FOR THE SELECTION OF SOLVENTSTOXIC SOLVENTSORGANIC SOLVENTSIONIC LIQUIDSMEMBRANE FABRICATION: A GREEN APPROACHGREEN SOLVENT IN THE PROCESS MEMBRANE FABRICATIONSYNTHESIS OF POLYIMIDESTHERMAL CONDENSATION OF MELAMINE AND PYROMETALLIC DIANHYDRIDEDIRECTIONAL FREEZING METHODSYNTHESIS OF POLYIMIDE THROUGH HYDROTHERMAL AUTOCLAVE METHODFABRICATION OF POLYMERIC MEMBRANESULTRASONICATION ASSISTED FABRICATION OF POLYIMIDE MEMBRANEFABRICATION OF POLYIMIDE MEMBRANES BY THE ELECTROSPINNING METHODFABRICATION OF POLYIMIDE MEMBRANES BY THE SOLVENT CASTING TECHNIQUECROSS-LINKING IN POLYIMIDE MEMBRANECONCLUSIONKEYWORDSREFERENCESDynamic Molecular Phenomena in Polyimides Investigated by Dynamic Mechanical AnalysisINTRODUCTIONPOLYIMIDES—OVERVIEWDYNAMIC MECHANICAL ANALYSIS—MECHANICAL METHOD VS THERMAL METHODSECONDARY RELAXATIONS IN POLYIMIDES—HOW IMPORTANT THEY ARESPECIFIC ASPECTS OF THE GLASS TRANSITION REGION IN POLYIMIDESTIME-TEMPERATURE SUPERPOSITION PRINCIPLE APPLIED FOR POLYIMIDESCONCLUSIONSACKNOWLEDGMENTKEYWORDSREFERENCES
 
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