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FEDERAL NOE G BJUDZHETNOE UCHREZHDENIE NAUKI INST NEFTEKHIMII I KATALIZA ROSSIJSKOJ AKADEMII NAUK

Overview
  • Total Patents
    90
  • GoodIP Patent Rank
    63,769
About

FEDERAL NOE G BJUDZHETNOE UCHREZHDENIE NAUKI INST NEFTEKHIMII I KATALIZA ROSSIJSKOJ AKADEMII NAUK has a total of 90 patent applications. Its first patent ever was published in 2012. It filed its patents most often in Russian Federation. Its main competitors in its focus markets environmental technology are SALAMON ISTVAN, IMAI SANSEIDO KK and ZHUHAI CAIZHU INDUSTRY CO LTD.

Patent filings in countries

World map showing FEDERAL NOE G BJUDZHETNOE UCHREZHDENIE NAUKI INST NEFTEKHIMII I KATALIZA ROSSIJSKOJ AKADEMII NAUKs patent filings in countries
# Country Total Patents
#1 Russian Federation 90

Patent filings per year

Chart showing FEDERAL NOE G BJUDZHETNOE UCHREZHDENIE NAUKI INST NEFTEKHIMII I KATALIZA ROSSIJSKOJ AKADEMII NAUKs patent filings per year from 1900 to 2020

Focus industries

Focus technologies

Top inventors

# Name Total Patents
#1 Dzhemilev Usein Memetovich 89
#2 Ibragimov Askhat Gabdrakhmanovich 37
#3 D Jakonov Vladimir Anatol Evich 17
#4 Khalilov Leonard Mukhibovich 16
#5 Rakhimova Elena Borisovna 14
#6 Khusnutdinov Ravil Ismagilovich 14
#7 Bajguzina Al Fija Ruslanovna 10
#8 Makhmudijarova Natalija Nail Evna 10
#9 Khajrullina Regina Radievna 8
#10 Kadikova Gul Nara Nazifovna 8

Latest patents

Publication Filing date Title
RU2565790C1 Method of producing n-cyclopentyl-substituted 1,5,3-dithiazepanes
RU2576312C1 Method of producing n-(1-adamantyl)acetamide
RU2565787C1 Method of producing 2-phenyl-3-alkylquinolines
RU2565786C1 METHOD OF OBTAINING 6-(m,n-HALOGENPHENYL)-1,11-DIOXA-4,8-DITHIA-6-AZACYCLOTRIDECANES
RU2565785C1 Method of producing (1,5,3-dithiazepan-3-yl)-quinolines
RU2561500C1 Method of obtaining 1-fluoro-2-alkylboracyclopropanes
RU2561498C1 METHOD OF PRODUCING 4,18,32-TRIS(o,m,p-HALOPHENYL)-11,25,39-TRIOXA-2,6,16,20,30,34-HEXATHIA-4,18,32-TRIAZAHEPTACYCLO[38.2.2.27,10.212,15.221,24.226,29.235,38]TETRAPENTACONTA-1(43),7(54),8,10(53),12(52),13,15(51),21(50),22,24(49),26(48),27,29(47),35(46),36,38(45),40,41-OCTADECAENES
RU2561735C1 Method of producing 4,18,32-tris-aryl-11,25,39-trioxa-2,6,16,20,30,34-hexathia-4,18,32-triazaheptacyclo[38.2.2.27,10.212,15.221,24.226,29.235,38]tetrapentaconta-1(43),7(54),8,10(53),12(52),13,15(51),21(50),22,24(49),26(48),27,29(47),35(46),36,38(45),40,41-octadecaenes
RU2565783C1 Method of obtaining 5-(1,5,3-dithiazepan-3-yl)quinoline and its application as means with fungicidal activity
RU2565782C1 Method of obtaining 6-alkyl(aryl)-2,3-(c60-ih)[5,6]fullero-2,3,4,5-tetrahydropyridines
RU2566086C1 Method of producing alkyl esters of phenanthrene-3-carboxylic acid
RU2565780C1 Method of producing 3-(2-alkynyl)-1,3-oxazolidines
RU2559363C1 Method of producing racemic 1-ethyl-3,4-bis[(oxyphenyl)methyl]aluminacyclopentanes
RU2570207C2 Method of producing n-aryl-1,5,3-dithiazacycloundecanes
RU2559362C1 Method of obtaining triamantan
RU2556009C1 METHOD OF OBTAINING 2,6-DIALKYL-HEXAHYDRO-1H,5H-2,3A,4A,6,7A,8A-HEXAAZACYCLOPENTA [def]FLUORENE-4,8-DIONS
RU2570206C2 Method of producing n-aryl-1,5,3-dithiazecanes
RU2559361C1 Method of producing n-aryl-1,5,3-dithiazonanes
RU2561506C1 METHOD OF OBTAINING 2,7-DIALKYL-2,3a,5a,7,8a,10a-HEXAAZAPERHYDROPYRENES
RU2555845C1 Method of producing 2,3-dialkyl-1-phenyl(alkyl)substituted phosphol-2-enes