摘要:
A process for synthesizing long-chain phosphonic acid derivatives and thiol derivative is disclosed. One embodiment provides organic compounds which can form a self-assembled monolayer and are obtained by reaction of an olefin with a thiocarboxylic acid and subsequent hydrogenation to give the thiol, or with a phosphite and subsequent hydrolysis to give the phosphonic acid.
摘要:
Embodiments of the invention provide a semiconductor component and a method of manufacture thereof. A semiconductor component comprises: a gate electrode layer adjacent a substrate, and a gate dielectric layer adjacent the gate electrode layer. The gate dielectric layer comprises a monolayer of at least one compound, wherein the compound has an aromatic or a condensed aromatic molecular group. The molecular group is capable of π-π interactions, which stabilize the monolayer. In an embodiment, the semiconductor component is an organic field effect transistor (OFET). In an embodiment of the invention, a method includes forming the monolayer using a liquid phase immersion process.
摘要:
Embodiments of the invention provide a semiconductor component and a method of manufacture thereof. A semiconductor component comprises: a gate electrode layer adjacent a substrate, and a gate dielectric layer adjacent the gate electrode layer. The gate dielectric layer comprises a monolayer of at least one compound, wherein the compound has an aromatic or a condensed aromatic molecular group. The molecular group is capable of π-π interactions, which stabilize the monolayer. In an embodiment, the semiconductor component is an organic field effect transistor (OFET). In an embodiment of the invention, a method includes forming the monolayer using a liquid phase immersion process.
摘要:
A synthesis method of a compound used to form a self-assembled monolayer used in a semiconductor component is provided. A method includes a first step of replacing a terminal halogen of an ω-haloalk-1-ene with a compound having at least one aromatic group, and a second step of hydrosilylating the reaction product of the first step. Reaction products of the first step include octadec-17-enyloxybenzene, 4-octadec-17″-enyloxy-1,1′-biphenyl, 2-heptadec-16′-enylthiophene, and 2-octadec-17′-enylthiophene. Monolayers provided include 18-phenoxyoctadecyl)trichlorosilane, [18-(1′,1″-biphenyl-4′-yloxy)octadecyl]trichlorosilane, (17-thien-2′-ylheptadecyl)trichlorosilane, (18-thien-2′-yloctadecyl)trichlorosilane, and 4-(18′-trichlorosilyloctadecyloxy)benzonitrile. An organic field effect transistor having monolayers according to embodiments of the invention is provided.
摘要:
An organic field effect transistor, having a substrate, a source electrode, a drain electrode and a gate electrode and an organic semiconductor material is disclosed. Arranged between the gate electrode and the organic semiconductor material is a dielectric layer (gate dielectric) obtained from a self-assembled monolayer of an organic compound having an anchor group, a linker group, a head group, and an aliphatic orientating group, the anchor group, the linker group, the head group, and the aliphatic orientating group being combined with one another in the order stated.
摘要:
An embodiment of the invention provides an integrated circuit having an organic field effect transistor (OFET) with a dielectric layer. The dielectric layer is prepared from a polymer formulation comprising: about 100 parts of at least one crosslinkable base polymer, from about 10 to about 20 parts of at least one di- or tribenzyl alcohol compound as an electrophilic crosslinking component, from about 0.2 to about 10 parts of at least one photo acid generator, and at least one solvent. Another embodiment provides a semiconductor fabrication method. The method comprises applying the polymer formulation to a surface of a substrate, drying the polymer formulation, crosslinking the polymer formulation after drying, and baking the polymer formulation after crosslinking.
摘要:
The invention relates to a compound comprising at least one memory unit consisting of an organic memory material, especially for use in CMOS structures, said compound being characterized by a) at least one first anchor group (1) provided with a reactive group for covalently bonding to a first electrode (10), especially a bottom electrode of a memory cell (102), and b) at least one second anchor group (2) provided with a reactive group for bonding to a second electrode (20), especially a top electrode of a memory cell (102). The invention also relates to a semiconductor component, and to a method for producing a semiconductor component. The invention thus provides a compound, a semiconductor component, and a method for producing the semiconductor component, by which means molecular memory layers can be efficiently formed on conventional substrates.