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ZHOU CHONGWU

Overview
  • Total Patents
    18
  • GoodIP Patent Rank
    214,100
  • Filing trend
    ⇩ 100.0%
About

ZHOU CHONGWU has a total of 18 patent applications. It decreased the IP activity by 100.0%. Its first patent ever was published in 2008. It filed its patents most often in United States and WIPO (World Intellectual Property Organization). Its main competitors in its focus markets micro-structure and nano-technology, environmental technology and semiconductors are IWASAKI TOMIO, ADVANCED SILICON GROUP INC and ARAKI YASUSHI.

Patent filings in countries

World map showing ZHOU CHONGWUs patent filings in countries

Patent filings per year

Chart showing ZHOU CHONGWUs patent filings per year from 1900 to 2020

Top inventors

# Name Total Patents
#1 Zhou Chongwu 18
#2 Wang Chuan 4
#3 Chen Po-Chiang 4
#4 Chen Haitian 4
#5 Ryu Koungmin 3
#6 Xu Jing 3
#7 Badmaev Alexander 3
#8 Chen Pochiang 3
#9 Fu Yue 3
#10 Ge Mingyuan 2

Latest patents

Publication Filing date Title
US2014312421A1 Vapor-trapping growth of single-crystalline graphene flowers
WO2014116316A2 Fully-printed carbon nanotube thin film transistor circuits for organic light emitting diode
US2014070169A1 Separated Carbon Nanotube-Based Active Matrix Organic Light-Emitting Diode Displays
US2013119348A1 Radio frequency devices based on carbon nanomaterials
US2012248416A1 High performance field-effect transistors
US2011304955A1 Fabrication of electrochemical capacitors based on inkjet printing
US2011311874A1 Silicon-Carbon Nanostructured Electrodes
US2011304953A1 Nanostructured thin-film electrochemical capacitors
US2011309306A1 Fabrication of Silicon Nanowires
US2011073837A1 High-performance single-crystalline N-type dopant-doped metal oxide nanowires for transparent thin film transistors and active matrix organic light-emitting diode displays
US2010240199A1 Scalable light-induced metallic to semiconducting conversion of carbon nanotubes and applications to field-effect transistor devices
US9388048B1 Synthesis of graphene by chemical vapor deposition
US2010127242A1 Transparent electronics based on transfer printed carbon nanotubes on rigid and flexible substrates