Optoelectronic Nanodevices
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| Autore: |
Stylianakis Minas M
|
| Titolo: |
Optoelectronic Nanodevices
|
| Pubblicazione: | MDPI - Multidisciplinary Digital Publishing Institute, 2020 |
| Descrizione fisica: | 1 online resource (338 p.) |
| Soggetto topico: | History of engineering and technology |
| Soggetto non controllato: | 2D perovskite |
| actively tunable nanodevices | |
| Ag film | |
| air-processed | |
| AlGaN-based ultraviolet light-emitting diode | |
| antireflective coating (ARC) | |
| cascade effect | |
| cathodoluminescence | |
| CdTe microdots | |
| charge transfer | |
| cold cathode | |
| color-conversion efficiency | |
| colorimetry | |
| compact | |
| controllable synthesis | |
| counter electrode | |
| current spreading | |
| double-layer ITO | |
| electromagnetically induced transparency effect | |
| electrowetting | |
| erbium | |
| excitation wavelength | |
| external quantum efficiency | |
| FDTD | |
| field emission | |
| flexible substrate | |
| flip-chip mini-LED | |
| Fowler-Nordheim | |
| functionalization | |
| Ga2O3 | |
| GaN | |
| gold split-ring | |
| graded indium composition | |
| graphene | |
| graphene ink | |
| graphene oxide | |
| graphene split-ring | |
| green LED | |
| green LEDs | |
| high-efficiency | |
| hole injection | |
| indium nanoparticles (In NPs) | |
| InGaN/GaN superlattice | |
| InN/p-GaN heterojunction | |
| interface | |
| LED | |
| light extraction | |
| light output power | |
| light-emitting diode | |
| light-emitting diodes | |
| liquid crystals | |
| localized surface plasmon | |
| metamaterials | |
| metasurfaces | |
| mid infrared | |
| n/a | |
| nano-grating | |
| NiCo2S4 nanotubes | |
| nucleation layer | |
| OAB | |
| organic | |
| organic solar cell | |
| orthogonal polarization | |
| oxidation | |
| p-type InGaN | |
| PeLEDs | |
| perovskite | |
| perovskite solar cells | |
| photocurrent | |
| photodetector | |
| photoelectric performance | |
| photoluminescence | |
| photomultiplication | |
| photovoltaics | |
| piezo-phototronic effect | |
| pinhole pattern | |
| plasmon resonance | |
| plasmonic forward scattering | |
| plasmonics | |
| polarization analyzer | |
| polymer composites | |
| prism-structured sidewall | |
| quantum confinement effect | |
| quantum dot | |
| quantum dots | |
| quantum efficiency | |
| reduced graphene oxide | |
| Schottky barrier | |
| sheet resistance | |
| silicon transistor | |
| smooth | |
| solar cells | |
| solvent | |
| stability | |
| subwavelength metal grating | |
| ternary organic solar cells | |
| textured silicon solar cells | |
| Ti porous film | |
| transmittance | |
| transparent conductive electrode | |
| transparent electrode | |
| tunable absorbers | |
| tunneling | |
| UV LEDs | |
| V-pits | |
| waveguide photons | |
| Sommario/riassunto: | During the last decade, novel graphene related materials (GRMs), perovskites, as well as metal oxides and other metal nanostructures have received the interest of the scientific community. Due to their extraordinary physical, optical, thermal, and electrical properties, which are correlated with their 2D ultrathin atomic layer structure, large interlayer distance, ease of functionalization, and bandgap tunability, these nanomaterials have been applied in the development or the improvement of innovative optoelectronic applications, as well as the expansion of theoretical studies and simulations in the fast-growing fields of energy (photovoltaics, energy storage, fuel cells, hydrogen storage, catalysis, etc.), electronics, photonics, spintronics, and sensing devices. The continuous nanostructure-based applications development has provided the ability to significantly improve existing products and to explore the design of materials and devices with novel functionalities. This book demonstrates some of the most recent trends and advances in the interdisciplinary field of optoelectronics. Most articles focus on light emitting diodes (LEDs) and solar cells (SCs), including organic, inorganic, and hybrid configurations, whereas the rest address photodetectors, transistors, and other well-known dynamic optoelectronic devices. In this context, this exceptional collection of articles is directed at a broad scientific audience of chemists, materials scientists, physicists, and engineers, with the goals of highlighting the potential of innovative optoelectronic applications incorporating nanostructures and inspiring their realization. |
| Titolo autorizzato: | Optoelectronic Nanodevices |
| ISBN: | 3-03928-697-8 |
| Formato: | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione: | Inglese |
| Record Nr.: | 9910404090103321 |
| Lo trovi qui: | Univ. Federico II |
| Opac: | Controlla la disponibilità qui |