Thickness effect on photoconduction spectra in solid films of C60

Giro, G.; Kalinowski, J.; Camaioni, Nadia; Fattori, V.; Marco, P.G. Di

doi:10.1016/s0379-6779(97)81151-4

Cited by 3 publications

(3 citation statements)

References 2 publications

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“…Deviations from perfect crystal structure or from perfect randomness of the sample is known to create difficulties in deriving a complete picture of the linear optical and electrical properties of the solid state of fullerene (see e.g. [266,267] table 5). The typical area is 0.1-0.5 cm 2 although devices with active areas of more than 50 cm 2 have been fabricated (figures 67 and 68).…”

Section: Fullerenesmentioning

confidence: 99%

“…Deviations from perfect crystal structure or from perfect randomness of the sample is known to create difficulties in deriving a complete picture of the linear optical and electrical properties of the solid state of fullerene (see e.g. [266,267] Figure 66. Schematic device structure of an organic DL LED using OXDs as the ETL and PPV as the EML.…”

Section: Fullerenesmentioning

confidence: 99%

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Electroluminescence in organics

Kalinowski

1999

J. Phys. D: Appl. Phys.

231

161

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There is growing interest in organic electroluminescence (EL). A great deal of progress has been made recently in improving the performance of various classes of organic EL devices. Some of these are now adequate for many applications. However, specialists focusing on selected aspects of organic EL devices have often lost contact with the general subject of EL. Therefore, a review covering all aspects of EL mechanisms and their experimental manifestation seemed necessary. This article is concerned with the new EL device physics that can be realized using crystals, or films made of organic materials, as electrically and optically active components, in devices ranging from simple single-component light emitting diodes (LEDs), through double-and multi-layer LEDs to light emitting electrochemical cells (LECs) and organic LED-based light transducers. The investigation of the properties of these devices has provided in turn a very effective method for studying the basic EL phenomena in these materials. Since the subject of the present review has generated a huge amount of literature, and it is impossible to mention here all that has been done, we have attempted to provide an outline of the background of the field of organic EL, and discussed in some detail those aspects most relevant to the EL device physics. Because of the diversity of the types of material and EL structure, there is no single, simple description of EL in organics. Therefore, the initial sections of the article are devoted to a discussion of the types of EL and related phenomena, such as carrier injection and recombination or nature of emitting states. Then, the fundamentals of the fabrication of various types of EL devices are discussed along with the most representative examples. In general, the reader will find in the article a brief historical review of the subject as well as a description of the latest trends in organic EL research covering all the new concepts and most important data which have become available before the time of publication.

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Section: Fullerenesmentioning

confidence: 99%

“…Deviations from perfect crystal structure or from perfect randomness of the sample is known to create difficulties in deriving a complete picture of the linear optical and electrical properties of the solid state of fullerene (see e.g. [266,267] Figure 66. Schematic device structure of an organic DL LED using OXDs as the ETL and PPV as the EML.…”

Section: Fullerenesmentioning

confidence: 99%

Electroluminescence in organics

Kalinowski

1999

J. Phys. D: Appl. Phys.

231

161

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“…Fullerene is tipically deposited on the substrate as film by vacuum evaporation or ion plating. [40][41][42][43] One of the characteristic features of fullerenes is their ability to sublimate at considerably lower temperatures as compared to other stable forms of carbon. [44][45][46] Modification of thin C 60 films is limited to expensive methods such as ion beam bombardment.…”

Section: O N L I N E F I R S T Hydrophobic Carbon Based Nanoparticlesmentioning

confidence: 99%

Self-assembly of carbon based nanoparticles films by Langmuir-Blodgett method

Stanković

Todorovic-Markovic

Marković

2020

JSCS

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It must be stressed that the manuscript still has to be subjected to copyediting, typesetting, English grammar and syntax corrections, professional editing and authors' review of the galley proof before it is published in its final form. Please note that during these publishing processes, many errors may emerge which could affect the final content of the manuscript and all legal disclaimers applied according to the policies of the Journal.

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Fullerene Research in Poland

Graja

2000

Fullerene Science and Technology

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Main results of the investigations of hllerene and its derivatives are briefly reviewed. Such topics as plasma spectroscopy, hllerenes and nanotubes formation, c 6 0 carbyne knots, fullerene reduction and doping, charge transfer states and electroabsorption of c 6 0 , electrical conductivity, superconductivity, ESR properties, fbllerene clathrates, c 6 O / c 7 0 complexes with organic donors, fbllerene adducts, hydrogenated fullerenes, metallohllerenes and carbon nanotubes are discussed.

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Thickness effect on photoconduction spectra in solid films of C60

Cited by 3 publications

References 2 publications

Electroluminescence in organics

Electroluminescence in organics

Self-assembly of carbon based nanoparticles films by Langmuir-Blodgett method

Fullerene Research in Poland

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