Show metadata Hide metadata

(19)

(11)

2 808 903

(13)

(51)

IPC

B01D7/02(2006-01-01)

B01D5/00(2006-01-01)

C01G39/02(2006-01-01)

B82Y40/00(2011-01-01)

B82B3/00(2006-01-01)

B01J19/08(2006-01-01)

B01J19/14(2006-01-01)

(21) (22)

Application

2023113261, 2023-05-23

(24)

Start date

2023-05-23

(22)

Actual filing date

2023-05-23

(45)

Published

2023-12-05

(72)

Inventor

Redkin Boris SergeevichKolesnikov Nikolaj NikolaevichBorisenko Dmitrij NikolaevichBorisenko Elena Borisovna

(73)

Holder

Federalnoe Gosudarstvennoe Uchrezhdenie Nauchno-Issledovatelskij Tsentr I Fotonika" Rossijskoj Akademii Nauk" I Fotonika" Ran)

METHOD FOR PRODUCING MOLYBDENUM TRIOXIDE MOO NANOPOWDER IN REACTOR Russian patent published in 2023 - IPC B01D7/02 B01D5/00 C01G39/02 B82Y40/00 B82B3/00 B01J19/08 B01J19/14

Abstract RU 2808903 C1

FIELD: nanooxide materials.

SUBSTANCE: method for producing molybdenum trioxide nanopowder used for the manufacture of scintillators of complex composition, as a catalyst for selective oxidation, as an additive in oils to reduce friction, and as an intermediate product for the production of thin transparent oxide films. The method for producing MoO₃ nanopowder in a reactor by evaporating MoO₃ powder and depositing its vapor on a substrate is characterized by the fact that the reactor, inside of which the substrate with MoO₃ powder is placed, is filled with helium under a pressure of 6-8 MPa, the powder is heated to 650-700°C for 10-20 minutes, and then cooled to room temperature and removed from the reactor.

EFFECT: providing a method for producing a target material with a rod diameter of 5-10 nm using equipment that is simple in design.

1 cl, 2 dwg, 6 ex

Similar patents RU2808903C1

Title	Year	Author	Number
METHOD OF PREPARING NANOPOWDER OF ZINC-CADMIUM TELLURIDE HAVING COMPOSITION CdZnTe	2006	Kolesnikov Nikolaj Nikolaevich Kveder Vitalij Vladimirovich Borisenko Dmitrij Nikolaevich Borisenko Elena Borisovna Gartman Valentina Kirillovna Timonina Anna Vladimirovna	RU2307785C1
METHOD OF PREPARING ZINC SELENO-TELLURIDE NANOPOWDER	2010	Kolesnikov Nikolaj Nikolaevich Kveder Vitalij Vladimirovich Borisenko Dmitrij Nikolaevich Borisenko Elena Borisovna Gartman Valentina Kirillovna Orlov Valerij Ivanovich Timonina Anna Vladimirovna	RU2415805C1
METHOD FOR PRODUCING IRON CARBIDE NANOPOWDER	2020	Zhigach Aleksej Nikolaevich Lejpunskij Ilya Ovseevich Berezkina Nadezhda Georgievna Kuskov Mikhail Leonidovich Afanasenkova Elena Sergeevna	RU2770102C1
METHOD OF CADMIUM SELENIDE NANOSTEMS PRODUCTION	2007	Kolesnikov Nikolaj Nikolaevich Kveder Vitalij Vladimirovich Borisenko Dmitrij Nikolaevich Borisenko Elena Borisovna Timonina Anna Vladimirovna	RU2334836C1
METHOD FOR PRODUCING IRON CARBIDE NANOPOWDER	2020	Zhigach Aleksej Nikolaevich Lejpunskij Ilya Ovseevich Berezkina Nadezhda Georgievna Kuskov Mikhail Leonidovich Afanasenkova Elena Sergeevna	RU2756555C1
METHOD OF MANUFACTURING SCINTILLATOR FOR DETECTORS OF IONIZING RADIATION, DEVICE FOR IMPLEMENTATION THEREOF AND SCINTILLATOR FOR DETECTORS OF IONIZING RADIATION	2020	Butashin Andrej Viktorovich Venevtsev Ivan Dmitrievich Muslimov Arsen Emirbegovich Kanevskij Vladimir Mikhajlovich Rodnyj Petr Aleksandrovich Zadorozhnaya Lyudmila Aleksandrovna Yashkov Viktor Nikolaevich	RU2737506C1
METHOD OF PRODUCING METAL NANO-SIZED POWDERS	2011	Novikov Aleksandr Nikolaevich	RU2489232C1
METHOD FOR OBTAINING THE NANOPOWDER OF TITANIDE HYDRIDE	2014	Zhigach Aleksej Nikolaevich Lejpunskij Ilya Ovseevich Berezkina Nadezhda Georgievna Kuskov Mikhail Leonidovich Afanasenkova Elena Sergeevna	RU2616920C2
NANOPOWDERS OBTAINING METHOD	2013	Alekseev Nikolaj Vasil'Evich Samokhin Andrej Vladimirovich Tsvetkov Jurij Vladimirovich	RU2534477C1
MOLYBDENUM TRIOXIDE PURIFICATION METHOD	2015	Avetisov Igor Khristoforovich Khomyakov Andrej Vladimirovich Mozhevitina Elena Nikolaevna Sadovskij Andrej Pavlovich	RU2610494C1

RU 2 808 903 C1

Authors

Redkin Boris Sergeevich

Kolesnikov Nikolaj Nikolaevich

Borisenko Dmitrij Nikolaevich

Borisenko Elena Borisovna

Dates

2023-12-05—Published

2023-05-23—Filed