Listing 1 - 10 of 16 | << page >> |
Sort by
|
Choose an application
Choose an application
Choose an application
In the last decade, much progress has been made in these materials. This book presents a highly coherent coverage of supramolecular, photosensitive and electroactive materials, namely those that have been extensively investigated for applications in fields of electronic and photonic technologies. This extensive reference provides broad coverage of on different types of materials, their processing, spectroscopic characterization, physical properties and device applications.The implications reach from molecular recognition in synthetic and natural complexes to exciting new applications
Phthalocyanines --- Optical properties. --- Electric properties.
Choose an application
In the last decade, much progress has been made in these materials. This book presents a highly coherent coverage of supramolecular, photosensitive and electroactive materials, namely those that have been extensively investigated for applications in fields of electronic and photonic technologies. This extensive reference provides broad coverage of on different types of materials, their processing, spectroscopic characterization, physical properties and device applications.The implications reach from molecular recognition in synthetic and natural complexes to exciting new applications
Phthalocyanines --- Optical properties. --- Electric properties. --- Phthalocyanine pigments --- Phthalocyanins --- Pigments
Choose an application
Choose an application
Choose an application
Since their initial accidental synthesis and characterization in Scotland in the late 1920s, there has been a strong research focus on the use of phthalocyanines (Pcs) as dyes and pigments. In recent years, active research fields have included their use in electrophotography, photovoltaic and solar cells, molecular electronics, Langmuir-Blodgett films, photosensitizers, electrochromic display devices, gas sensors, liquid crystals, low-dimensional conductors, and optical disks. Phthalocyanines possess interesting biological, electronic, optical, catalytic, and structural properties. The main disadvantage is their insolubility in common solvents due to strong intermolecular - interactions. The solubility of phthalocyanines can be increased by various methods such as the formation of anionic and cationic species and both axial and peripheral substitution. Substitution at the nonperipheral and peripheral positions of the benzo moieties usually enhances their solubility in organic solvents. The most important advantage of phthalocyanines compared to porphyrins is that their Q bands lie at longer wavelengths and are considerably more intense. In this book, you will find synthesis and some applications of various phthalocyanine derivatives.
Phthalocyanines. --- Phthalocyanine pigments --- Phthalocyanins --- Pigments --- Physical Sciences --- Engineering and Technology --- Chemistry --- Electrochemistry --- Organic Chemistry
Choose an application
Porphyrins, phthalocyanines and their numerous analogues and derivatives are materials of tremendous importance in chemistry, materials science, physics, biology and medicine. They are the red color in blood (heme) and the green in leaves (chlorophyll); they are also excellent ligands that can coordinate with almost every metal in the Periodic Table. Grounded in natural systems, porphyrins are incredibly versatile and can be modified in many ways; each new modification yields derivatives, demonstrating new chemistry, physics and biology, with a vast array of medicinal and technical application
Porphyrins --- Phthalocyanines --- Phthalocyanine pigments --- Phthalocyanins --- Pigments --- Porphyrin and porphyrin compounds --- Macrocyclic compounds --- Pigments (Biology)
Choose an application
Electronic books. -- local. --- Phthalocyanines. --- Pigments. --- Phthalocyanines --- Heterocyclic Compounds, 2-Ring --- Biological Factors --- Indoles --- Pigments, Biological --- Heterocyclic Compounds --- Chemicals and Drugs --- Chemistry --- Inorganic Chemistry --- Biochemistry --- Physical Sciences & Mathematics --- Phthalocyanine pigments --- Phthalocyanins --- Chemistry. --- Inorganic chemistry. --- Organic chemistry. --- Physical chemistry. --- Optical materials. --- Electronic materials. --- Nanotechnology. --- Inorganic Chemistry. --- Optical and Electronic Materials. --- Organic Chemistry. --- Physical Chemistry. --- Paint materials --- Coloring matter --- Paint --- Pigments --- Chemistry, inorganic. --- Chemistry, Organic. --- Chemistry, Physical organic. --- Chemistry, Physical organic --- Chemistry, Organic --- Chemistry, Physical and theoretical --- Molecular technology --- Nanoscale technology --- High technology --- Organic chemistry --- Optics --- Materials --- Inorganic chemistry --- Inorganic compounds --- Chemistry, Theoretical --- Physical chemistry --- Theoretical chemistry --- Electronic materials
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.
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
Listing 1 - 10 of 16 | << page >> |
Sort by
|