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FEDERAL NOE GUP G NTS RF I TEO

Overview
  • Total Patents
    22
About

FEDERAL NOE GUP G NTS RF I TEO has a total of 22 patent applications. Its first patent ever was published in 2004. It filed its patents most often in Russian Federation. Its main competitors in its focus markets environmental technology are ECOLOGY KAIHATSU KK, UTILAJE SI PIESE DE SCHIMB PEN and IRICO FOSHAN FLAT PANEL DISPLAY CO LTD.

Patent filings in countries

World map showing FEDERAL NOE GUP G NTS RF I TEOs patent filings in countries
# Country Total Patents
#1 Russian Federation 22

Patent filings per year

Chart showing FEDERAL NOE GUP G NTS RF I TEOs patent filings per year from 1900 to 2020

Focus industries

# Industry
#1 Environmental technology

Focus technologies

# Technology
#1 Climate change mitigation in wastewater treatment

Top inventors

# Name Total Patents
#1 Iosseliani Dmitrij Dmitrievich 7
#2 Kiselev Gennadij Vladimirovich 2
#3 Rad Ko Valerij Evgen Evich 2
#4 Zajtsev Sergej Vladimirovich 2
#5 Turchin Vladimir Ivanovich 2
#6 Vasil Ev Valerij Vasil Evich 2
#7 Korotkov Mark Mikhajlovich 2
#8 Bajukov Jurij Denisovich 2
#9 Davydov Andrej Vladimirovich 2
#10 Isaev Jurij Nikolaevich 2

Latest patents

Publication Filing date Title
RU2372298C1 Device for water body aeration
RU2378806C1 Neutron generator hf-acellerating structure
RU2370003C1 Iron-free linear induction deuteron accelerator - neutron generator
RU2365904C1 Device for measurement of gamma resonance form of long-lived nuclear isomers
RU2362185C1 Method for detection of gamma-rays resonance absorption of long-lived nuclear isomers
RU2366124C1 Induction deuteron accelerator - neutron generator
RU2343583C1 Self-sharpening point field-emission cathode for operation in technical vacuum
RU2352013C2 Source of ions with multipole magnetic field in hollow cathode
RU2326379C1 Correlation analysis device
RU2323454C1 Device for measuring correlations in neutron decay
RU2339102C2 Method for production of plasma enable start targets
RU2343576C2 Device for production of unblocked starting targets
RU2308115C1 Direct-current hydrogen ion source
RU2326992C2 Method of microblades production
RU2330341C2 Autonomous flexible ion duct
RU2307342C1 Method of testing materials for cancer production
RU2309559C2 Electrostatic ion accelerator
RU2287197C2 Neutron tube
RU2284045C2 Method for evaluating radioactive decay parameters
RU2282581C2 Method and device for producing calibrated nano-capillary