Polymer gels and networks, ISSN 0966-7822, 1993
Journal
Progress in Polymer Science, ISSN 0079-6700, 2012, Volume 37, Issue 4, pp. 530 - 563
Nanoporous organic polymer networks are a class of materials consisting solely of the lighter elements in the periodic table. These materials have potential...
Carbon dioxide capture | Conjugated microporous polymer | Hydrogen storage | Polymers of intrinsic microporosity | Microporous | Hypercrosslinked polymers | POLYMER SCIENCE | POROUS AROMATIC FRAMEWORK | HYDROGEN-STORAGE MATERIALS | INTRINSIC MICROPOROSITY | TRIAZINE-BASED FRAMEWORKS | HIGH-SURFACE-AREA | CONJUGATED MICROPOROUS POLYMERS | CARBON-DIOXIDE CAPTURE | CROSS-LINKED POLYMERS | GAS SEPARATION | POTENTIAL ADSORBENTS | Boron nitride | Polymer industry | Polymers | Hydrogen | Graphite
Carbon dioxide capture | Conjugated microporous polymer | Hydrogen storage | Polymers of intrinsic microporosity | Microporous | Hypercrosslinked polymers | POLYMER SCIENCE | POROUS AROMATIC FRAMEWORK | HYDROGEN-STORAGE MATERIALS | INTRINSIC MICROPOROSITY | TRIAZINE-BASED FRAMEWORKS | HIGH-SURFACE-AREA | CONJUGATED MICROPOROUS POLYMERS | CARBON-DIOXIDE CAPTURE | CROSS-LINKED POLYMERS | GAS SEPARATION | POTENTIAL ADSORBENTS | Boron nitride | Polymer industry | Polymers | Hydrogen | Graphite
Journal Article
2004, ISBN 9780815341697, 559
The general subject of polymeric liquids and networks was developed over the past 70 years by researchers from many academic disciplines. The infusion of fresh...
Polymer networks | Polymer solutions
Polymer networks | Polymer solutions
Book
Reviews of Modern Physics, ISSN 0034-6861, 2014, Volume 86, Issue 3, pp. 995 - 1036
This is an overview of theoretical approaches to semiflexible polymers and their networks. Such semiflexible polymers have large bending rigidities that can...
MICROSCOPIC VISCOELASTICITY | PHYSICS, MULTIDISCIPLINARY | FORCE PROPAGATION | ELASTIC NETWORKS | THERMAL FLUCTUATIONS | CONCENTRATED ISOTROPIC SOLUTIONS | NEGATIVE NORMAL STRESS | CONSTITUTIVE MODEL | MECHANICAL-PROPERTIES | NONLINEAR ELASTICITY | DISORDERED SOLIDS | Biological research | Mechanical properties | Usage | Polymers | Biology, Experimental
MICROSCOPIC VISCOELASTICITY | PHYSICS, MULTIDISCIPLINARY | FORCE PROPAGATION | ELASTIC NETWORKS | THERMAL FLUCTUATIONS | CONCENTRATED ISOTROPIC SOLUTIONS | NEGATIVE NORMAL STRESS | CONSTITUTIVE MODEL | MECHANICAL-PROPERTIES | NONLINEAR ELASTICITY | DISORDERED SOLIDS | Biological research | Mechanical properties | Usage | Polymers | Biology, Experimental
Journal Article
1982, Advances in polymer science, ISBN 9783540114710, Volume 44., 164
Book
6.
Full Text
Well-Defined Networks from DGEBF-The Importance of Regioisomerism in Epoxy Resin Networks
MACROMOLECULES, ISSN 0024-9297, 09/2019, Volume 52, Issue 18, pp. 6861 - 6867
The previously ignored or unreported impact of regiosomerism within diglycidyl ether of bisphenol F (DGEBF) on its network properties is presented. Routes to...
TRANSPORT | POLYMER SCIENCE | WATER DIFFUSION | SWELLING STRESSES | KINETICS | BISPHENOL-F | SORPTION | MOISTURE ABSORPTION | CURE | FLUID INGRESS | NANOVOID STRUCTURE
TRANSPORT | POLYMER SCIENCE | WATER DIFFUSION | SWELLING STRESSES | KINETICS | BISPHENOL-F | SORPTION | MOISTURE ABSORPTION | CURE | FLUID INGRESS | NANOVOID STRUCTURE
Journal Article
1984, Advances in Polymer Science, ISBN 0387136568, Volume 65., 230
Book
2002, ISBN 0415284171, 337
This volume explains the theory and experimental investigations in the preparation of heterophase polymer network materials through cure reaction-induced...
Polymers | Polymer networks | Separation
Polymers | Polymer networks | Separation
eBook
Inorganica Chimica Acta, ISSN 0020-1693, 08/2016, Volume 450, pp. 190 - 201
Homochiral MOFs by spontaneous resolution or by chiral templating are presented in both enantiomeric forms each. In both cases hydrogen bonding appears to...
Homochiral | sql network | Interpenetration | Coordination polymer | sra network | Spontaneous resolution | SQL network | MIXED-MATRIX MEMBRANES | CENTER-DOT-N | CRYSTAL-STRUCTURE | BUILDING-BLOCKS | HYDROGEN-BONDS | CHEMISTRY, INORGANIC & NUCLEAR | METAL-ORGANIC FRAMEWORKS | PI INTERACTIONS | HEAT TRANSFORMATION PROCESSES | HETEROGENEOUS ASYMMETRIC CATALYSIS | SCHIFF-BASE LIGANDS | Bisphenol-A | Enantiomers | Benzene | Zinc
Homochiral | sql network | Interpenetration | Coordination polymer | sra network | Spontaneous resolution | SQL network | MIXED-MATRIX MEMBRANES | CENTER-DOT-N | CRYSTAL-STRUCTURE | BUILDING-BLOCKS | HYDROGEN-BONDS | CHEMISTRY, INORGANIC & NUCLEAR | METAL-ORGANIC FRAMEWORKS | PI INTERACTIONS | HEAT TRANSFORMATION PROCESSES | HETEROGENEOUS ASYMMETRIC CATALYSIS | SCHIFF-BASE LIGANDS | Bisphenol-A | Enantiomers | Benzene | Zinc
Journal Article
2011, 1st ed., Wilson & Wilson's comprehensive analytical chemistry, ISBN 0444537007, Volume 56, xxiii, 648
Book
2011, ISBN 9781420046229, xv, 605
Book
Angewandte Chemie International Edition, ISSN 1433-7851, 11/2007, Volume 46, Issue 45, pp. 8574 - 8578
Rigid wiry nets: Conjugated microporous polymer networks are formed by Sonogashira–Hagihara coupling. Although these materials are amorphous, the micropore...
polymerization | networks | microporous materials | conjugation | Polymerization | Networks | Microporous materials | Conjugation | PORE-SIZE | DESIGN | MACROCYCLES | REACTIVITY | INTRINSIC MICROPOROSITY | HYDROGEN STORAGE | SALTS | CHEMISTRY, MULTIDISCIPLINARY | FUNCTIONALITY | OPEN-FRAMEWORK | Pictures | Benzene | Struts | Amorphous materials | Joining | Surface area
polymerization | networks | microporous materials | conjugation | Polymerization | Networks | Microporous materials | Conjugation | PORE-SIZE | DESIGN | MACROCYCLES | REACTIVITY | INTRINSIC MICROPOROSITY | HYDROGEN STORAGE | SALTS | CHEMISTRY, MULTIDISCIPLINARY | FUNCTIONALITY | OPEN-FRAMEWORK | Pictures | Benzene | Struts | Amorphous materials | Joining | Surface area
Journal Article
2002, ISBN 9780824706692, 400
Provides comprehensive coverage of the most recent developments in the theory of non-Archimedean pseudo-differential equations and its application to...
Polymer colloids | Polymer networks | Chemistry | Polymer Science | Polymers & Plastics
Polymer colloids | Polymer networks | Chemistry | Polymer Science | Polymers & Plastics
eBook
Polymer, ISSN 0032-3861, 02/2014, Volume 55, Issue 3, pp. 914 - 923
Tough double network (DN) hydrogels are a kind of interpenetrating network (IPN) gels with a contrasting structure; they consist of a rigid and brittle 1st...
Double network hydrogels | Brittle-ductile transition | Fracture | POLYMER SCIENCE | GELS | TOUGHNESS | HIGH-STRENGTH | FRACTURE PROPERTIES | CRACK TIPS | MODEL | Specific gravity
Double network hydrogels | Brittle-ductile transition | Fracture | POLYMER SCIENCE | GELS | TOUGHNESS | HIGH-STRENGTH | FRACTURE PROPERTIES | CRACK TIPS | MODEL | Specific gravity
Journal Article
Macromolecular Rapid Communications, ISSN 1022-1336, 05/2015, Volume 36, Issue 10, pp. 880 - 884
Exploiting the tremendous potential of the recently discovered reversible bidirectional shape‐memory effect (rbSME) for biomedical applications requires...
body temperature | copolymer networks | orientational memory | broad melting temperature range | reversible bidirectional shape‐memory polymer | Reversible bidirectional shape-memory polymer | Copolymer networks | Broad melting temperature range | Body temperature | Orientational memory | POLYMERS | POLYMER SCIENCE | reversible bidirectional shape-memory polymer | Pliability | Acrylates - chemistry | Biocompatible Materials - chemistry | Humans | Human Body | Materials Testing | Caproates - chemistry | Body Temperature | Phase Transition | Lactones - chemistry | Networks | Acrylates | Copolymers | Melting | Bidirectional | Human body | Shape memory | Switching theory
body temperature | copolymer networks | orientational memory | broad melting temperature range | reversible bidirectional shape‐memory polymer | Reversible bidirectional shape-memory polymer | Copolymer networks | Broad melting temperature range | Body temperature | Orientational memory | POLYMERS | POLYMER SCIENCE | reversible bidirectional shape-memory polymer | Pliability | Acrylates - chemistry | Biocompatible Materials - chemistry | Humans | Human Body | Materials Testing | Caproates - chemistry | Body Temperature | Phase Transition | Lactones - chemistry | Networks | Acrylates | Copolymers | Melting | Bidirectional | Human body | Shape memory | Switching theory
Journal Article
Chemical Society Reviews, ISSN 0306-0012, 8/2013, Volume 42, Issue 17, pp. 7161 - 7173
Covalently crosslinked materials, classically referred to as thermosets, represent a broad class of elastic materials that readily retain their shape and...
ROOM-TEMPERATURE | HYDROGELS | RAFT PROCESS | LIVING RADICAL POLYMERIZATION | CROSS-LINKED POLYMERS | DIELS-ALDER REACTION | LIGHT | CHEMISTRY | DYNAMIC POLYMERS | DISULFIDE | CHEMISTRY, MULTIDISCIPLINARY | Networks | Covalence | Molecular structure | Topography | Incident radiation | Crosslinking | Stimuli | Covalent bonds
ROOM-TEMPERATURE | HYDROGELS | RAFT PROCESS | LIVING RADICAL POLYMERIZATION | CROSS-LINKED POLYMERS | DIELS-ALDER REACTION | LIGHT | CHEMISTRY | DYNAMIC POLYMERS | DISULFIDE | CHEMISTRY, MULTIDISCIPLINARY | Networks | Covalence | Molecular structure | Topography | Incident radiation | Crosslinking | Stimuli | Covalent bonds
Journal Article