Abstract: The invention discloses a 4-(N-methyl) aminopiperidine myricetin derivative containing dithiocarbamate, and its preparation method and application, whose structural general formula is shown as follows: wherein R is substituted phenyl and substituted aromatic heterocyclic group; n is the number of carbons in the carbon chain, which are 2, 3, 4 and 5 respectively; the substitute phenyl group is an alkyl group containing C1-6, alkoxy group containing C1-6, nitro group, halogen atom or hydrogen atom in ortho-, meta- and para- position on that benzene ring; the aromatic heterocyclic group is thienyl, furyl, pyrrolyl and pyridyl groups; the substituents on the substituted aromatic heterocycle are o-, m-, and p- containing C1-6 alkyl, C1-6 alkoxy, nitro, halogen, and hydrogen atoms. The invention has better inhibitory activity on cancer cells.

Abstract: The invention discloses a 4-(N-methyl) aminopiperidine myricetin derivatives containing sulfonamide, a preparation method and application, whose structural general formula is shown as follows: Wherein, R is substituted phenyl and substituted aromatic heterocyclic group; n is the number of carbon in the carbon chain and is 2, 3, 4 and 5 respectively. The substituted phenyl group is an alkyl group containing C1-6, an alkoxy group containing C1-6, a nitro group, a halogen atom or a hydrogen atom in ortho, meta and para positions on the benzene ring. The substituted aromatic heterocyclic group is thienyl, furyl, pyrrolyl, pyridyl, etc., and the substituent on the aromatic heterocyclic ring is an alkyl group containing C1-6, alkoxy group of C1-6, nitro group, halogen atom or hydrogen atom in ortho, meta and para positions. The invention has a better control effect on inhibiting plant germs and can be used as an agricultural bactericide.

Abstract: Provided is a method for preparing stallimycin. The method comprises: fermenting streptomyces in a fermentation medium comprising a carbon source, a nitrogen source and 3-hydroxy-4-aminobutyric acid, and adding vegetable oil into the fermentation medium during the fermentation.

Abstract: The present invention belongs to a method for preparing organic ligand-capped titanium dioxide nanocrystals, wherein the method comprises steps of using methyl titanate, ethyl titanate, n-propyl titanate, iso-propyl titanate, butyl titanate or titanium tetrachloride as a titanium source, and with capping by oleic acid or an organic capping agent, reacting the titanium source in an organic non-polar solvent with an aqueous alkaline substance solution in the interface at a temperature of 25 to 280° C. for 0.5 to 240 hrs, thus a transparent sol containing titanium dioxide nanocrystals is obtained, said the titanium dioxide nanocrystals have particle diameters of 1-20 nm. The preparing process has the features of mild reaction conditions and is a simpler and easier method with a shorter preparation period, thereby facilitating the industrialization.

Abstract: The present invention provides a process for producing a nanosemiconductor luminous material on a liquid-liquid interface, comprising the steps of: a) an oxide of a Group IIB metal and a carboxylic acid with 2-18 carbon atoms or an oleic acid reacting with each other in a solvent at 150-300° C. for 5-30 min, wherein the mol ratio of the oxide to the acid being 1˜5:5˜1; b) adding trioctylphosphine oxide and trioctylphosphine with a mol ratio of trioctylphosphine oxide to trioctylphosphine of 10˜1:1˜10 and a mol ratio of the total mol numbers of trioctylphosphine oxide to the oxide of 10˜1:1˜10; c) adding an aqueous solution of at least one alkaline/alkaline earth metal chalcogenide in a mol ratio of the chalcogenide to the oxide of 10˜1:1˜10; and d) reacting at 20-100° C. for 0.5˜10 h to obtain a sol containing a semiconductor nanoparticle. The produced semiconductor nanoparticle can emit a wavelength-adjustable visible light under a UV lamp.

Abstract: A two-phase thermal method for the preparation of cadmium sulfide quantum dots where a cadmium source, a sulfur source and a capping agent are heated in water and water-insoluble organic solvents forming a two-phase system. By means of varying reaction time, cadmium sulfide quantum dots of different sizes can be prepared. Quantum dots already obtained can be used as crystal seeds in the reaction of newly added reaction precursor to give larger sized quantum dots with a size distribution similar to that of the initial crystal seeds so as to realize the control of quantum dot size. The quantum dots obtained in the present invention have relatively narrow size distribution, and emit royal purple or blue light under ultraviolet lamp, with a photoluminescence quantum efficiency of from 3 to 60%.

Abstract: The present invention relates to a two-phase thermal method for the preparation of cadmium sulfide quantum dots. In the method, cadmium carboxylate containing 2 to 18 carbon atoms or cadmium oxide is selected as cadmium source; thiourea or thioacetamide is selected as sulfur source; oleic acid or trioctylphosphine oxide (TOPO) is selected as capping agent, and molar ratio of cadmium source to sulfur source is in a range of from 10:1 to 1:10, and molar ratio of cadmium source to capping agent is in a range of from 1:7 to 1:25. Water and water-insoluble organic compound in equal or similar volume are used as solvents forming a two-phase system. The mixture is heated at 120-180° C. in an autoclave for 0.5 to 24 hrs. By means of varying reaction time, cadmium sulfide quantum dots of different sizes could be prepared.

Abstract: The present invention belongs to a method for preparing organic ligand-capped titanium dioxide nanocrystals, wherein the method comprises steps of using methyl titanate, ethyl titanate, n-propyl titanate, iso-propyl titanate, butyl titanate or titanium tetrachloride as a titanium source, and with capping by oleic acid or an organic capping agent, reacting the titanium source in an organic non-polar solvent with an aqueous alkaline substance solution in the interface at a temperature of 25 to 280° C. for 0.5 to 240 hrs, thus a transparent sol containing titanium dioxide nanocrystals is obtained, said the titanium dioxide nanocrystals have particle diameters of 1-20 nm. The preparing process has the features of mild reaction conditions and is a simpler and easier method with a shorter preparation period, thereby facilitating the industrialization.

Abstract: The present invention provides a process for producing a nanosemiconductor luminous material on a liquid-liquid interface, comprising the steps of: a) an oxide of a Group IIB metal and a carboxylic acid with 2-18 carbon atoms or an oleic acid reacting with each other in a solvent at 150-300° C. for 5-30 min, wherein the mol ratio of the oxide to the acid being 1˜5:5˜1; b) adding trioctylphosphine oxide and trioctylphosphine with a mol ratio of trioctylphosphine oxide to trioctylphosphine of 10˜1:1˜10 and a mol ratio of the total mol numbers of trioctylphosphine oxide to the oxide of 10˜1:1˜10; c) adding an aqueous solution of at least one alkaline/alkaline earth metal chalcogenide in a mol ratio of the chalcogenide to the oxide of 10˜1:1˜10; and d) reacting at 20-100° C. for 0.5˜10 h to obtain a sol containing a semiconductor nanoparticle. The produced semiconductor nanoparticle can emit a wavelength-adjustable visible light under a UV lamp.