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Organic Electronics is a rapidly evolving multidisciplinary research field at the interface between Organic Chemistry and Physics. Organic Electronics is based on the use of the unique optical and electrical properties of π-conjugated materials that range from small molecules to polymers. The wide activity of researchers in Organic Electronics is testament to the fact that its potential is huge and its list of potential applications almost endless. Application of these electronic and optoelectronic devices range from Organic Field Effect Transistors (OFETs) to Organic Light Emitting Diodes (OLEDs) and Organic Solar Cells (OSCs), sensors, etc. We invited a series of colleagues to contribute to this Special Issue with respect to the aforementioned concepts and keywords. The goal for this Special Issue was to describe the recent developments of this rapidly advancing interdisciplinary research field. We thank all authors for their contributions.
Technology: general issues --- fluorene --- nitrofluorene --- Knoevenagel reaction --- near infrared absorption --- push–pull chromophore --- poly(nitro)fluorene --- organic tandem solar cell --- 3D nano-ripple pattern --- ZnO sol-gel --- charge recombination layer --- low temperature solution process --- on-surface reaction --- stepwise growth --- sequential growth --- hierarchical growth --- macromolecular organic structures --- surface covalent organic framework --- nanoribbons --- macrocycles --- coordination polymers --- silicon phthalocyanines --- n-type organic semiconductors --- organic thin-film transistors --- push-pull dyes --- chromophore --- naphthalene --- solvatochromism --- DFT --- fullerene derivative --- P3HT --- polymer solar cell --- QSPR --- TD-DFT
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Organic Electronics is a rapidly evolving multidisciplinary research field at the interface between Organic Chemistry and Physics. Organic Electronics is based on the use of the unique optical and electrical properties of π-conjugated materials that range from small molecules to polymers. The wide activity of researchers in Organic Electronics is testament to the fact that its potential is huge and its list of potential applications almost endless. Application of these electronic and optoelectronic devices range from Organic Field Effect Transistors (OFETs) to Organic Light Emitting Diodes (OLEDs) and Organic Solar Cells (OSCs), sensors, etc. We invited a series of colleagues to contribute to this Special Issue with respect to the aforementioned concepts and keywords. The goal for this Special Issue was to describe the recent developments of this rapidly advancing interdisciplinary research field. We thank all authors for their contributions.
Technology: general issues --- fluorene --- nitrofluorene --- Knoevenagel reaction --- near infrared absorption --- push–pull chromophore --- poly(nitro)fluorene --- organic tandem solar cell --- 3D nano-ripple pattern --- ZnO sol-gel --- charge recombination layer --- low temperature solution process --- on-surface reaction --- stepwise growth --- sequential growth --- hierarchical growth --- macromolecular organic structures --- surface covalent organic framework --- nanoribbons --- macrocycles --- coordination polymers --- silicon phthalocyanines --- n-type organic semiconductors --- organic thin-film transistors --- push-pull dyes --- chromophore --- naphthalene --- solvatochromism --- DFT --- fullerene derivative --- P3HT --- polymer solar cell --- QSPR --- TD-DFT
Choose an application
Organic Electronics is a rapidly evolving multidisciplinary research field at the interface between Organic Chemistry and Physics. Organic Electronics is based on the use of the unique optical and electrical properties of π-conjugated materials that range from small molecules to polymers. The wide activity of researchers in Organic Electronics is testament to the fact that its potential is huge and its list of potential applications almost endless. Application of these electronic and optoelectronic devices range from Organic Field Effect Transistors (OFETs) to Organic Light Emitting Diodes (OLEDs) and Organic Solar Cells (OSCs), sensors, etc. We invited a series of colleagues to contribute to this Special Issue with respect to the aforementioned concepts and keywords. The goal for this Special Issue was to describe the recent developments of this rapidly advancing interdisciplinary research field. We thank all authors for their contributions.
fluorene --- nitrofluorene --- Knoevenagel reaction --- near infrared absorption --- push–pull chromophore --- poly(nitro)fluorene --- organic tandem solar cell --- 3D nano-ripple pattern --- ZnO sol-gel --- charge recombination layer --- low temperature solution process --- on-surface reaction --- stepwise growth --- sequential growth --- hierarchical growth --- macromolecular organic structures --- surface covalent organic framework --- nanoribbons --- macrocycles --- coordination polymers --- silicon phthalocyanines --- n-type organic semiconductors --- organic thin-film transistors --- push-pull dyes --- chromophore --- naphthalene --- solvatochromism --- DFT --- fullerene derivative --- P3HT --- polymer solar cell --- QSPR --- TD-DFT
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A compilation of papers presenting original research results in the areas of organic, inorganic, organometallic, solid state and theoretical chemistry with a common theme of the use of X-ray diffraction to solve chemical problems.
Research & information: general --- Chemistry --- Organic chemistry --- molecular magnetism --- supramolecular chemistry --- heterometallic clusters --- magnetometry --- EPR spectroscopy --- N-Substituted Benzamides --- Woollins’ reagent --- selenation reagent --- reduction reagent --- single crystal X-ray structures --- DFT --- 3d metal complex --- benchmark --- hydricity --- 2D Cu-MOF --- square grid structure --- Click reaction --- Knoevenagel reaction --- green chemistry --- titanium(IV) oxo-clusters --- band gap modification --- multinuclear NMR --- ESI-MS studies --- photoluminescence --- perophoramidine --- natural product --- Claisen rearrangement --- indoloquinoline --- intramolecular cyclization --- X-ray structure --- isothiourea --- ammonium enolate --- aryloxide --- quinone methide --- ester functionalization --- 1,6-conjugate addition --- layered perovskite --- bandgap tuning --- azetidinium --- Ruddlesden–Popper --- structure-property relations --- amide groups --- isomers --- late-transition metals --- P-ligands --- phenols --- secondary interactions --- single crystal X-ray crystallography --- MOF --- calcium MOF --- electrochemistry --- scXRD --- VTXRD --- bioMOF --- bond activation --- low oxidation state complexes --- magnesium --- metallacycles --- ring system --- X-ray crystallography --- peri-substitution --- arsenic --- organophosphorus --- pnictine --- PDS --- PELDOR --- DEER --- nitroxide spin label --- Comparative DEER Analyzer --- mtsslSuite --- MMM --- oxazoline --- Wittig rearrangement --- thiophene --- thieno[2,3-c]pyrrolone
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A compilation of papers presenting original research results in the areas of organic, inorganic, organometallic, solid state and theoretical chemistry with a common theme of the use of X-ray diffraction to solve chemical problems.
Research & information: general --- Chemistry --- Organic chemistry --- molecular magnetism --- supramolecular chemistry --- heterometallic clusters --- magnetometry --- EPR spectroscopy --- N-Substituted Benzamides --- Woollins’ reagent --- selenation reagent --- reduction reagent --- single crystal X-ray structures --- DFT --- 3d metal complex --- benchmark --- hydricity --- 2D Cu-MOF --- square grid structure --- Click reaction --- Knoevenagel reaction --- green chemistry --- titanium(IV) oxo-clusters --- band gap modification --- multinuclear NMR --- ESI-MS studies --- photoluminescence --- perophoramidine --- natural product --- Claisen rearrangement --- indoloquinoline --- intramolecular cyclization --- X-ray structure --- isothiourea --- ammonium enolate --- aryloxide --- quinone methide --- ester functionalization --- 1,6-conjugate addition --- layered perovskite --- bandgap tuning --- azetidinium --- Ruddlesden–Popper --- structure-property relations --- amide groups --- isomers --- late-transition metals --- P-ligands --- phenols --- secondary interactions --- single crystal X-ray crystallography --- MOF --- calcium MOF --- electrochemistry --- scXRD --- VTXRD --- bioMOF --- bond activation --- low oxidation state complexes --- magnesium --- metallacycles --- ring system --- X-ray crystallography --- peri-substitution --- arsenic --- organophosphorus --- pnictine --- PDS --- PELDOR --- DEER --- nitroxide spin label --- Comparative DEER Analyzer --- mtsslSuite --- MMM --- oxazoline --- Wittig rearrangement --- thiophene --- thieno[2,3-c]pyrrolone
Choose an application
A compilation of papers presenting original research results in the areas of organic, inorganic, organometallic, solid state and theoretical chemistry with a common theme of the use of X-ray diffraction to solve chemical problems.
molecular magnetism --- supramolecular chemistry --- heterometallic clusters --- magnetometry --- EPR spectroscopy --- N-Substituted Benzamides --- Woollins’ reagent --- selenation reagent --- reduction reagent --- single crystal X-ray structures --- DFT --- 3d metal complex --- benchmark --- hydricity --- 2D Cu-MOF --- square grid structure --- Click reaction --- Knoevenagel reaction --- green chemistry --- titanium(IV) oxo-clusters --- band gap modification --- multinuclear NMR --- ESI-MS studies --- photoluminescence --- perophoramidine --- natural product --- Claisen rearrangement --- indoloquinoline --- intramolecular cyclization --- X-ray structure --- isothiourea --- ammonium enolate --- aryloxide --- quinone methide --- ester functionalization --- 1,6-conjugate addition --- layered perovskite --- bandgap tuning --- azetidinium --- Ruddlesden–Popper --- structure-property relations --- amide groups --- isomers --- late-transition metals --- P-ligands --- phenols --- secondary interactions --- single crystal X-ray crystallography --- MOF --- calcium MOF --- electrochemistry --- scXRD --- VTXRD --- bioMOF --- bond activation --- low oxidation state complexes --- magnesium --- metallacycles --- ring system --- X-ray crystallography --- peri-substitution --- arsenic --- organophosphorus --- pnictine --- PDS --- PELDOR --- DEER --- nitroxide spin label --- Comparative DEER Analyzer --- mtsslSuite --- MMM --- oxazoline --- Wittig rearrangement --- thiophene --- thieno[2,3-c]pyrrolone
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