Information about Organic Semiconductor
An organic semiconductor is any organic material that has semiconductor properties. A semiconductor is any compound whose electrical conductivity is between that of typical metals and that of insulating compounds. Both short chain (oligomers) and long chain (polymers) organic semiconductors are known. Examples of semiconducting oligomers are: pentacene, anthracene and rubrene. Examples of polymers are: poly(3-hexylthiophene), poly(p-phenylene vinylene), F8BT, as well as polyaectylene and its derivatives.
There are two major classes of organic semiconductors, which overlap significantly: organic charge-transfer complexes, and various "linear backbone" polymers derived from polyacetylene, such as polyacetylene itself, polypyrrole, and polyaniline. Charge-transfer complexes often exhibit similar conduction mechanisms to inorganic semiconductors, at least locally. This includes the presence of a hole and electron conduction layer and a band gap. As with inorganic amorphous semiconductors, tunneling, localized states, mobility gaps, and phonon-assisted hopping also contribute to conduction, particularly in polyacetylenes. Like inorganic semiconductors, organic semiconductors can be doped. Highly doped organic semiconductors, for example Polyaniline (Ormecon) and , are also known as organic metals.
Several kinds of carriers mediate conductivity in organic semiconductors. These include π-electrons and unpaired electrons. Almost all organic solids are insulators. But when their constituent molecules have π-conjugate systems, electrons can move via π-electron cloud overlaps. Polycyclic aromatic hydrocarbons and phthalocyanine salt crystals are examples of this type of organic semiconductor.
In charge transfer complexes, even unpaired electrons can stay stable for a long time, and are the carriers. This type of semiconductor is also obtained by pairing an electron donor molecule and an electron acceptor molecule.
The study of conductive charge-transfer complexes began with the discovery of the strikingly high conductivity of perylene-iodine complex (8 Ωcm) in 1954. In 1972, researchers reported metallic conductivity in a TTF-TCNQ complex. In 1980, superconductivity was observed in TMTSF-PF6 complex.
In 1963, Weiss et al reported [1] passive high conductivity in iodine-"doped" oxidized polypyrrole. While not generally acknowledged, this is the first report of modern highly-conductive polyacetylenes and related linear-backbone polymer "Blacks" or Melanins. They achieved a resistance of 1 ohm/cm. The authors also described the effects of iodine doping on conductivity, the conductivity type (n or p), and electron spin resonance studies on polypyrrole. In later papers, they achieved resistances as low as .03 ohm/cm, [2][3] on the order of present-day efforts. They noted an Australia patent application (5246/61, June 5, 1961) for conducting polypyrrole. Highly-conductive polypyrrole is often incorrectly reported as being discovered in 1979 by Diaz et al. J. Chem. Soc., Chem Comm, 1979: 635-6.[4].
In a similar 1977 paper, Shirakawa et al reported [5] equivalent high conductivity in similarly oxidized and iodine-doped polyacetylene. They received the 2000 Noble prize in Chemistry for " The discovery and development of conductive polymers " [6]. The Nobel committee made no reference to the Australian's earlier reports, which also were never cited by the Nobel winners. See Nobel Prize controversies.
Likewise, an organic electronic device was reported in a 1974 paper in Science . Here, John McGinness and his coworkers reported a high conductivity "ON" state and hallmark negative differential resistance in DOPA Melanin, an oxidized copolymer of polyacetylene, polypyrrole, and polyaniline. This device was a "proof of concept" for an earlier paper in Science [7] outlining what is now the classic mechanism for electrical conduction in such materials, long considered part of the "development" cited in the 2000 Nobel award. In a typical "active" device, a voltage or current controls electron flow. This gadget is now in the Smithsonian's collection.
Analogous rigid-backbone organic semiconductors are now-used as active elements in optoelectronic devices such as organic light-emitting diodes (OLED), organic solar cells, organic field effect transistors (OFET), electrochemical transistors and recently in biosensing applications.
Organic semiconductors have many advantages, such as easy fabrication, mechanical flexibility, and low cost. Melanin is a semiconducting polymer currently of high interest to researchers in the field of organic electronics in both its natural and synthesized forms.
Organic matter (or organic material) is matter that has come from a recently living organism; is capable of decay, or the product of decay; or is composed of organic compounds.
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There are two major classes of organic semiconductors, which overlap significantly: organic charge-transfer complexes, and various "linear backbone" polymers derived from polyacetylene, such as polyacetylene itself, polypyrrole, and polyaniline. Charge-transfer complexes often exhibit similar conduction mechanisms to inorganic semiconductors, at least locally. This includes the presence of a hole and electron conduction layer and a band gap. As with inorganic amorphous semiconductors, tunneling, localized states, mobility gaps, and phonon-assisted hopping also contribute to conduction, particularly in polyacetylenes. Like inorganic semiconductors, organic semiconductors can be doped. Highly doped organic semiconductors, for example Polyaniline (Ormecon) and , are also known as organic metals.
Several kinds of carriers mediate conductivity in organic semiconductors. These include π-electrons and unpaired electrons. Almost all organic solids are insulators. But when their constituent molecules have π-conjugate systems, electrons can move via π-electron cloud overlaps. Polycyclic aromatic hydrocarbons and phthalocyanine salt crystals are examples of this type of organic semiconductor.
In charge transfer complexes, even unpaired electrons can stay stable for a long time, and are the carriers. This type of semiconductor is also obtained by pairing an electron donor molecule and an electron acceptor molecule.
History
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Voltage-controlled switch, an "active" organic polymer electronic device from 1974. Now in the Smithsonian.
The study of conductive charge-transfer complexes began with the discovery of the strikingly high conductivity of perylene-iodine complex (8 Ωcm) in 1954. In 1972, researchers reported metallic conductivity in a TTF-TCNQ complex. In 1980, superconductivity was observed in TMTSF-PF6 complex.
In 1963, Weiss et al reported [1] passive high conductivity in iodine-"doped" oxidized polypyrrole. While not generally acknowledged, this is the first report of modern highly-conductive polyacetylenes and related linear-backbone polymer "Blacks" or Melanins. They achieved a resistance of 1 ohm/cm. The authors also described the effects of iodine doping on conductivity, the conductivity type (n or p), and electron spin resonance studies on polypyrrole. In later papers, they achieved resistances as low as .03 ohm/cm, [2][3] on the order of present-day efforts. They noted an Australia patent application (5246/61, June 5, 1961) for conducting polypyrrole. Highly-conductive polypyrrole is often incorrectly reported as being discovered in 1979 by Diaz et al. J. Chem. Soc., Chem Comm, 1979: 635-6.[4].
In a similar 1977 paper, Shirakawa et al reported [5] equivalent high conductivity in similarly oxidized and iodine-doped polyacetylene. They received the 2000 Noble prize in Chemistry for " The discovery and development of conductive polymers " [6]. The Nobel committee made no reference to the Australian's earlier reports, which also were never cited by the Nobel winners. See Nobel Prize controversies.
Likewise, an organic electronic device was reported in a 1974 paper in Science . Here, John McGinness and his coworkers reported a high conductivity "ON" state and hallmark negative differential resistance in DOPA Melanin, an oxidized copolymer of polyacetylene, polypyrrole, and polyaniline. This device was a "proof of concept" for an earlier paper in Science [7] outlining what is now the classic mechanism for electrical conduction in such materials, long considered part of the "development" cited in the 2000 Nobel award. In a typical "active" device, a voltage or current controls electron flow. This gadget is now in the Smithsonian's collection.
Analogous rigid-backbone organic semiconductors are now-used as active elements in optoelectronic devices such as organic light-emitting diodes (OLED), organic solar cells, organic field effect transistors (OFET), electrochemical transistors and recently in biosensing applications.
Organic semiconductors have many advantages, such as easy fabrication, mechanical flexibility, and low cost. Melanin is a semiconducting polymer currently of high interest to researchers in the field of organic electronics in both its natural and synthesized forms.
References
"An Overview of the First Half-Century of Molecular Electronics" by Noel S. Hush, Ann. N.Y. Acad. Sci. 1006: 1–20 (2003).External Links
- www.organicsemiconductors.com
- Semi-Conducting Polymers and Optoelectronics - Richard Friend, Cavendish Professor, Cambridge Freeview video by the Vega Science Trust.
- Electronic Conduction in Polymers. III. Electronic Properties of Polypyrrole BA Bolto, R McNeill and DE Weiss , Australian Journal of Chemistry 16(6) 1090 - 1103.
See also
Other meanings can be found at Biological material
Organic matter (or organic material) is matter that has come from a recently living organism; is capable of decay, or the product of decay; or is composed of organic compounds.
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A semiconductor is a solid that has electrical conductivity in between that of a conductor and that of an insulator, and can be controlled over a wide range, either permanently or dynamically.[1] Semiconductors are tremendously important in technology.
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In chemistry, an oligomer consists of a finite number of monomer units (ολιγος, or oligos, is Greek for "a few"), in contrast to a polymer which, at least in principle, consists of an unbounded number of monomers.
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polymer is a substance composed of molecules with large molecular mass composed of repeating structural units, or monomers, connected by covalent chemical bonds. The word is derived from the Greek, πολυ, polu, "many"; and μέρος, meros,
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Pentacene is a polycyclic aromatic hydrocarbon consisting of 5 linearly-fused benzene rings. This extended conjugation, together with a favorable crystal structure is responsible for it's properties as an organic semiconductor.
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Anthracene is a solid polycyclic aromatic hydrocarbon consisting of three fused benzene rings derived from coal-tar. Anthracene is used in the artificial production of the red dye alizarin. It is also used in wood preservatives, insecticides, and coating materials.
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Rubrene (5,6,11,12-tetraphenylnaphthacene) is a red colored polycyclic aromatic hydrocarbon. It has the appearance of a red crystalline powder.
Rubrene is used as a sensitiser in chemoluminescence. In lightsticks it is used to produce yellow light.
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Rubrene is used as a sensitiser in chemoluminescence. In lightsticks it is used to produce yellow light.
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Polythiophenes (PTs) result from the polymerization of thiophenes, a sulfur heterocycle, that can become conducting when electrons are added or removed from the conjugated π-orbitals via doping.
The study of polythiophenes has intensified over the last three decades.
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The study of polythiophenes has intensified over the last three decades.
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Poly(p-phenylene vinylene) (PPV, or polyphenylene vinylene) is a conducting polymer of the rigid-rod polymer host family.
PPV is the only polymer of this type that has so far been successfully processed into a highly ordered crystalline thin film.
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PPV is the only polymer of this type that has so far been successfully processed into a highly ordered crystalline thin film.
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A charge transfer complex (CT complex) is defined as an electron donor–electron acceptor complex, characterized by electronic transition(s) to an excited state. In this excited state, there is a partial transfer of electronic charge from the donor to the acceptor.
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Polyacetylene (IUPAC name: polyethyne) is an organic polymer with the repeat unit (C2H2)n. The high electrical conductivity discovered for these polymers in the 1970’s accelerated interest in the use of organic compounds in microelectronics.
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A Polypyrrole (PPy) is a chemical compound formed from a number of connected pyrrole ring structures. For example a tetrapyrrole is a compound with four pyrrole rings connected.
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Polyaniline (PANI) is a conducting polymer of the semi-flexible rod polymer family. It was discovered in 1934 as anilin black. Polyaniline also exists naturally as part of a mixed copolymer with polyacetylene and polypyrrole in some melanins.
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inorganic compounds are considered to be of mineral, not biological, origin. Complementarily, most organic compounds are traditionally viewed as being of biological origin.
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A semiconductor is a solid that has electrical conductivity in between that of a conductor and that of an insulator, and can be controlled over a wide range, either permanently or dynamically.[1] Semiconductors are tremendously important in technology.
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Electron
Theoretical estimates of the electron density for the first few hydrogen atom electron orbitals shown as cross-sections with color-coded probability density
Composition: Elementary particle
Family: Fermion
Group: Lepton
Generation: First
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Theoretical estimates of the electron density for the first few hydrogen atom electron orbitals shown as cross-sections with color-coded probability density
Composition: Elementary particle
Family: Fermion
Group: Lepton
Generation: First
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In solid state physics and related applied fields, the band gap, also called an energy gap or stop band, is a region where a particle or quasiparticle is forbidden from propagating.
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phonon is a quantized mode of vibration occurring in a rigid crystal lattice, such as the atomic lattice of a solid.[1] The study of phonons is an important part of solid state physics, because phonons play a major role in many of the physical properties of solids,
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In semiconductor production, doping refers to the process of intentionally introducing impurities into an extremely pure (also referred to as intrinsic) semiconductor in order to change its electrical properties. The impurities are dependent upon the type of semiconductor.
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Polyaniline (PANI) is a conducting polymer of the semi-flexible rod polymer family. It was discovered in 1934 as anilin black. Polyaniline also exists naturally as part of a mixed copolymer with polyacetylene and polypyrrole in some melanins.
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conjugated system is a system of atoms covalently bonded with alternating single and multiple (e.g. double) bonds (e.g., C=C-C=C-C) in a molecule of an organic compound. This system results in a general delocalization of the electrons across all of the adjacent parallel aligned
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Aromaticity is a chemical property in which a conjugated ring of unsaturated bonds, lone pairs, or empty orbitals exhibit a stabilization stronger than would be expected by the stabilization of conjugation alone.
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An aromatic hydrocarbon (abbreviated as AH) or arene [1] is a hydrocarbon, the molecular structure of which incorporates one or more planar sets of six carbon atoms that are connected by delocalised electrons numbering the same as if they consisted of alternating
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A phthalocyanine is a macrocyclic compound having an alternating nitrogen atom-carbon atom ring structure [1][2][3].
The molecule is able to coordinate hydrogen and metal cations in its center by coordinate bonds with the four isoindole
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The molecule is able to coordinate hydrogen and metal cations in its center by coordinate bonds with the four isoindole
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A charge transfer complex (CT complex) is defined as an electron donor–electron acceptor complex, characterized by electronic transition(s) to an excited state. In this excited state, there is a partial transfer of electronic charge from the donor to the acceptor.
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Perylene or perilene is a polycyclic aromatic hydrocarbon with chemical formula C20H12 and CAS number [], occurring as a brown solid.
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Iodine (IPA: /ˈaɪədaɪn, ˈaɪədɪn/, or /ˈaɪədiːn/; from Greek: iodes
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A complex is a whole that comprehends a number of parts, especially one with interconnected or mutually related parts. It may refer to:
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- Complex (chemistry), also called a "coordination compound" or "metal complex", is a structure consisting of a central atom or molecule
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