Polymers comprising at least one unit of formula (1) and their use as semiconducting materials.

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Photocurable compositions that combine redox-active semiconducting organic polymers with photocurable organic molecules are provided. Upon exposure to radiation, the photocurable compositions form ion-permeable, electrically conductive crosslinked organic films that can be used as conducting channels in n-channel or p-channel organic electrochemical transistors, including vertical organic electrochemical transistors (vOECTs). The vOECTs can be incorporated in complementary electronic circuits.

The present invention addresses the problem of providing a fluorine-containing aromatic polymer; a method for producing the fluorine-containing aromatic polymer; etc. The problem can be solved by: a polymer having a monomer unit represented by formula (1) (wherein R.sup.1 in each occurrence is independently a halogen atom, NR.sup.11R.sup.12 (wherein R.sup.11 and R.sup.12 are independently a hydrogen atom or an organic group), or an organic group; n1 is an integer of 0 to 4; two R.sup.1s that can be present in the ortho-positions may form a ring together with two carbon atoms on the adjacent benzene ring, wherein the formed ring may have an organic group as a substituent; and L.sup.1 is a single bond, an oxygen atom, a sulfur atom, -L.sup.11-O—, —O-L.sup.12-O—, -L.sup.13-S—, or —S-L.sup.14-S— (wherein L.sup.11 to L.sup.14 are each independently an alkylene group optionally having one or more substituents); etc.

Disclosed are a polymer including at least one structural unit with a moiety represented by Chemical Formula 1, an organic thin film including the polymer, a thin film transistor, and an electronic device. ##STR00001## In Chemical Formula 1, Ar.sup.1 to Ar.sup.3, L.sup.1, L.sup.2, and R.sup.1 to R.sup.6 are the same as described in the detailed description.

There is a polymeric photovoltaic cell (or solar cell) with inverted structure having an anode; an anodic buffer layer; an active layer having at least one photoactive organic polymer as electron-donor and at least one electron-accepting organic compound; a cathodic buffer layer; and a cathode. The at least one photoactive organic polymer is selected from conjugated polymers comprising an anthraditiophenic derivative having a general formula (I):

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The polymeric photovoltaic cell (or solar cell) with inverted structure shows good values of power conversion efficiency (PCE) (η) and can be advantageously used in the construction of photovoltaic modules (or solar modules), either on a rigid support or on a flexible support.

Provided are a polymer semiconductor including a first structural unit represented by Chemical Formula 1 and a second structural unit represented by Chemical Formula 2, a stretchable polymer thin film including the same, and an electronic device.

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Definitions of Chemical Formulas 1 and 2 are as described in the detailed description.

Provided are: a resist underlayer film formation composition combining high etching resistance, high heat resistance, and excellent coating properties; a resist underlayer film in which the resist underlayer film formation composition is used and a method for manufacturing the resist underlayer film; a method for forming a resist pattern; and a method for manufacturing a semiconductor device. The resist underlayer film formation composition is characterized by including the compound represented by Formula (1), or a polymer derived from the compound represented by Formula (1) (where: AA represents a single bond or a double bond; X.sup.1 represents —N(R.sup.1)—; X.sup.2 represents —N(R.sup.2)—; X.sup.3 represents —CH(R.sup.3)—; X.sup.4 represents —CH(R.sup.4)— etc.; R.sup.1, R.sup.2, R.sup.3, and R.sup.4 represent hydrogen atoms, C1-20 straight chain, branched, or cyclic alkyl groups, etc.; R.sup.5, R.sup.6, R.sup.9, and R.sup.10 represent hydrogen atoms, hydroxy groups, alkyl groups, etc.; R.sup.7 and R.sup.8 represent benzene rings or naphthalene rings; and n and o are 0 or 1). A semiconductor device is manufactured by: coating the composition on a semiconductor substrate, firing the coated composition, and forming a resist underlayer film; forming a resist film thereon with an inorganic resist underlayer film interposed therebetween selectively as desired; forming a resist pattern by irradiating light or electron radiation and developing; etching the underlayer film using the resist pattern; and processing the semiconductor substrate using the patterned underlayer film.

The invention relates to novel compounds containing one or more units derived from 2,6-disubstituted-[1,5]naphthyridine or 1,6-disubstituted-1H-[1,5]naphthyridine-2-one, to methods for their preparation and educts or intermediates used therein, to mixtures and formulations containing them, to the use of the compounds, mixtures and formulations as organic semiconductors in organic electronic (OE) devices, especially in organic photovoltaic (OPV) devices and organic photodetectors (OPD), and to OE, OPV and OPD devices comprising these compounds, mixtures or formulations.

The present invention relates to an electrolyte for a lithium secondary battery, comprising an organic solvent, a lithium salt and a compound of Chemical Formula 1, wherein the compound of Chemical Formula 1 is contained in an amount of 0.001 wt % or more and less than 0.1 wt %. ##STR00001## In Chemical Formula 1, n is one of the integers 3 to 10.

A novel dopant according to the present disclosure includes an anion represented by the following Formula (1) and a counter cation. In Formula (1), R.sup.1 and R.sup.2 may be each at least one group selected from a nitro group, a cyano group, an acyl group, a carboxyl group, an alkoxycarbonyl group, a haloalkyl group, a sulfo group, an alkylsulfonyl group, an halosulfonyl group, and a haloalkylsulfonyl group, or may be a group formed by R.sup.1 and R.sup.2 bonded to each other [—SO.sub.2-L-SO.sub.2—] (where L represents a haloalkylene group). The counter cation may be a radical cation represented by Formula (2), where R.sup.1 and R.sup.2 represent electron-withdrawing groups that may be bonded to each other to form a heterocycle, and R.sup.3 to R.sup.5 represent a hydrogen atom, a hydrocarbon group that may have a substituent, or a heterocyclic group that may have a substituent. The dopant is capable of forming an electroconductive composition that shows a high conductivity.