The present invention relates to a radioactive iodine-labeled pyrido[1,2-a]benzimidazole derivative compound represented by a definite general formula or a salt thereof, or a radiopharmaceutical comprising the same.

The application is drawn to radiohalogen prosthetic moieties and precursors thereof and to radiolabeled biomolecules comprising such radiohalogen prosthetic moieties. The biomolecules have an affinity for particular types of cells and may specifically bind a certain cell, such as a cancer cell. Relevant biomolecules include antibodies, monoclonal antibodies, antibody fragments, peptides, other proteins, nanoparticles, aptamers, and pharamacological moieties used to target prostate-specific membrane antigen (PSMA).

The present invention relates to cyclopropyl-(hetero)aryl substituted ethylsulphonyl-pyridine derivatives of formula (I)

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wherein the variables are as defined in the description and in the claims, which can be used as antiparasitic agents for the treatment, prevention and/or control of parasitic infections and/or infestations in animals.

Organotin compounds are presented that are represented by the formula RSnL.sub.3, wherein R is a deuterated hydrocarbyl group and L is a hydrolysable ligand. Two different synthesis techniques are described for synthesizing these compositions. A first method involves reacting a primary halide hydrocarbyl compound (R—X, where X is a halide atom) with an organometallic composition comprising SnL3 moieties associated with metal cations M, where M is an alkali metal, alkaline earth metal, and/or pseudo-alkaline earth metal (Zn, Cd, or Hg), and L is either an amide ligand resulting in an alkali metal tin triamide compound or an acetylide ligand resulting in an alkali metal tin triacetylide, to form correspondingly a monohydrocarbyl tin triamide (RSn(NR′.sub.2).sub.3) or a monohydrocarbyl tin triacetylide (RSn(C≡CR.sub.s).sub.3). An alternative approach involves reacting a Grignard reagent RMgX with SnL.sub.4 in a solution comprising an organic solvent to form a monoorgano tin tralkylamide, a monoorgano tin trialkoxide, monoorgano tin tri acetylide or monoorgano tin tricarboxylate. The compositions are useful for radiation patterning, especially with EUV radiation.

The invention provides a facile process for preparing certain organotin compounds having alkyl and aryl substituents. These compounds are useful as intermediates in the synthesis of certain alkylamino- and alkoxy-substituted alkyl tin compounds, which are in turn useful as precursors in the deposition of high-purity tin oxide films in, for example, extreme ultraviolet light (EUV) lithography techniques used in microelectronic device manufacturing.

As described herein, photosensitive composition comprises RSnL.sub.3, where R is a hydrocarbyl ligand with 1-20 carbon atoms and one or more silicon and/or germanium heteroatoms and L is an acetylide ligand (—C≡CA, where A is a silyl group with 0 to 6 carbon atoms or an organo group with 1 to 10 carbon atoms). Methods are described wherein photosensitive compositions are synthesized by reacting RX, where X is a halide, and MSnL.sub.3, where M is an alkali metal, alkali earth metal or a pseudo-alkali earth metal, L is an acetylide or a dialkylamide. The radiation sensitive compositions are effective for radiation based patterning, such as with EUV light.

The present invention provides an intermediate compound for easily producing a compound having an azaperylene skeleton. Another object of the present invention is to provide a method for easily producing a compound having an azaperylene skeleton.

The compound of the present invention is a compound represented by Formula (I), or a compound represented by Formula (II).

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A method for forming a fluorinated oxostannate film involves vaporizing a volatile fluorinated alkyltin compound having at least two hydrolytically sensitive functional groups or at least two reactive functional groups which are sensitive to oxidation at a temperature greater than 200° C.; providing a substrate; physisorbing or chemisorbing the fluorinated alkyltin compound onto the substrate; and exposing the physisorbed or chemisorbed fluorinated alkyltin compound to a sequence of hydrolysis, irradiation, and/or oxidation steps to form the fluorinated oxostannate thin film on the substrate. Fluorinated alkyltin compounds having formula (I) are also described, in which R.sup.f is a fluorinated or partially fluorinated linear or branched alkyl group having about 1 to about 5 carbon atoms, X is a dialkylamino group having about 1 to about 4 carbon atoms, and n is 1 or 2:

(R.sup.fCH.sub.2).sub.nSnX.sub.(4-n)  (I)

The invention provides certain fluorinated alkyl tin compounds which are believed to be useful in the vapor deposition of tin-containing films onto the surface of microelectronic device substrates. Also provided are processes for the preparation of the precursor compounds and processes for the use of such compounds in the deposition of tin-containing films onto microelectronic device substrates.

The present invention relates to a method for the preparation of an N-monofluoroalkyl tropane, a method for the preparation of a trialkyltin tropane, a method for the preparation of an iodinated and/or radioiodinated tropane and the use of the N-monofluoroalkyl tropane as a precursor in the method for the preparation of the trialkyltin tropane and/or the iodinated and/or radioiodinated tropane.