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SHUL YONG GUN

Overview
  • Total Patents
    11
About

SHUL YONG GUN has a total of 11 patent applications. Its first patent ever was published in 2001. It filed its patents most often in Republic of Korea. Its main competitors in its focus markets environmental technology, electrical machinery and energy and macromolecular chemistry and polymers are FUJIAN XFH BATTERY MAT CO LTD, BLACK LIGHT POWER INC and INT FUEL CELLS CORP.

Patent filings in countries

World map showing SHUL YONG GUNs patent filings in countries
# Country Total Patents
#1 Republic of Korea 11

Patent filings per year

Chart showing SHUL YONG GUNs patent filings per year from 1900 to 2020

Top inventors

# Name Total Patents
#1 Shul Yong Gun 10
#2 Kim Hyun Jong 3
#3 Ahn Ji Eun 2
#4 Kim Hak Su 1
#5 Lee Jung Hyun 1
#6 Haam Seung Joo 1
#7 Kim Hyeon Jae 1
#8 Kim Jin Sol 1
#9 Kim Hyeon Jong 1
#10 Ju Yeong Hwan 1

Latest patents

Publication Filing date Title
KR20090104210A Development of advanced performance in fuel cell with mixture of metal/CNF/ACF and metal/carbon composites
KR20090050649A Durability enhancement of pemfc in on/off cycle under low humidity condition
KR20090049363A Concentrated sodium borohydride solution with stabilizer
KR20070013373A Discovery of new types of proton conductors for electro-oxidation of methanol
KR20060104562A Construction of the fuel cell using pcb for variable temperature conditions
KR20060037500A Method for preparation of imidazole-heteropolyacid salt and production of propylene oxide
KR20060013945A Method of production of magnetically responsive inorganic composite particle and magnetically responsive drug carrier and applications to drug delivery system
KR20050024812A Method for preparation of high temperature proton conducting composite membrane and its high temperature operation of polymer electrolyte fuel cell
KR20040036396A Method and application of polymer electrolyte membrane for fuel cell
KR20030041004A Preparation method of bipolar plate using the electron conducting polymer composite
KR20020082633A Preparation and application of ultra fine titania photocalysts doped by transition, lanthanides, and precious metals ion (Au, In, Sn, W, Zn, V, Ce, Eu, Ag) to utilize a solar spectrum (or spectrum of visible range)