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NAT INSTITUTES OF NATURAL SCIENCES

Overview
  • Total Patents
    44
  • GoodIP Patent Rank
    34,970
  • Filing trend
    ⇧ 33.0%
About

NAT INSTITUTES OF NATURAL SCIENCES has a total of 44 patent applications. It increased the IP activity by 33.0%. Its first patent ever was published in 2015. It filed its patents most often in Japan, United States and EPO (European Patent Office). Its main competitors in its focus markets optics, telecommunications and environmental technology are OPTIPULSE INC, TAMURA YUJI and TERAHERTZ TECHNOLOGIES LLC.

Patent filings in countries

World map showing NAT INSTITUTES OF NATURAL SCIENCESs patent filings in countries
# Country Total Patents
#1 Japan 41
#2 United States 2
#3 EPO (European Patent Office) 1

Patent filings per year

Chart showing NAT INSTITUTES OF NATURAL SCIENCESs patent filings per year from 1900 to 2020

Top inventors

# Name Total Patents
#1 Hirato Hironori 10
#2 Nozawa Takahide 4
#3 Uozumi Yasuhiro 4
#4 Nishikawa Kazuo 4
#5 Kiuchi Hitoshi 4
#6 Kishi Atsuhide 4
#7 Yasuhara Akira 3
#8 Tokitani Masayuki 3
#9 Morisaki Tomohiro 2
#10 Richard Edmond Veale 2

Latest patents

Publication Filing date Title
JP2020175404A Brazing joining method for alumina dispersion strengthened copper
JP2020089350A Inhibitors targeting functional inhibition of sodium channels and acid-sensitive ion channels, as well as method for screening therapeutic agent and use thereof
JP2020131167A Silver nanoparticle resin composite and hydrogenation catalyst
JP2020134262A Measurement device
JP2020125248A Method for producing tazobactam key intermediate
JP2020101452A Dissimilar metal joint for diverter
JP2020050531A Sintered compact comprising activated carbon and its manufacturing method
JP2020043777A HEAT-RESISTANT β-GLUCOSIDASES
JP2020038070A Method of detecting quench in superconductor
JP2020015046A Brazing joining method for alumina dispersion strengthened copper
JP2019199382A Material generation method
JP2019201015A Laser device
JP2019189808A Polymer carrying pyridine derivative and transfer reaction using the same
JP2019186417A Laser device
JP2019129252A Manufacturing method of optical element and the optical element
JP2019126751A CHIRAL RHODIUM COMPLEX, AND METHOD FOR PRODUCING β-SUBSTITUTED CARBONYL COMPOUND
JP2018082210A Q-switched laser device
JP2019102298A Superconductive conductor
JP2018055113A Compensation optical system and optical device
JP2019062106A Bonding device and bonding method