IMPERIAL INNOVATIONS LTD has a total of 520 patent applications. It increased the IP activity by 14.0%. Its first patent ever was published in 2002. It filed its patents most often in United Kingdom, United States and WIPO (World Intellectual Property Organization). Its main competitors in its focus markets pharmaceuticals, biotechnology and medical technology are UNIV JOSEPH FOURIER, IMP INNOVATIONS LTD and UNIV GRENOBLE 1.
# | Country | Total Patents | |
---|---|---|---|
#1 | United Kingdom | 126 | |
#2 | United States | 100 | |
#3 | WIPO (World Intellectual Property Organization) | 80 | |
#4 | EPO (European Patent Office) | 67 | |
#5 | Australia | 60 | |
#6 | Canada | 27 | |
#7 | China | 15 | |
#8 | Brazil | 14 | |
#9 | Republic of Korea | 8 | |
#10 | Israel | 4 | |
#11 | Singapore | 3 | |
#12 | South Africa | 3 | |
#13 | Chile | 2 | |
#14 | Mexico | 2 | |
#15 | Malaysia | 2 | |
#16 | Russian Federation | 2 | |
#17 | Ukraine | 2 | |
#18 | EAPO (Eurasian Patent Organization) | 1 | |
#19 | Nicaragua | 1 | |
#20 | Taiwan | 1 |
# | Industry | |
---|---|---|
#1 | Pharmaceuticals | |
#2 | Biotechnology | |
#3 | Medical technology | |
#4 | Measurement | |
#5 | Environmental technology | |
#6 | Macromolecular chemistry and polymers | |
#7 | Chemical engineering |
# | Name | Total Patents |
---|---|---|
#1 | Yang Guang-Zhong | 19 |
#2 | Bloom Stephen Robert | 18 |
#3 | Livingston Andrew Guy | 13 |
#4 | Kember Michael | 13 |
#5 | Lin Jianguo | 12 |
#6 | Bahmanyar Mohammad Reza | 12 |
#7 | Seneci Carlo Alberto | 11 |
#8 | Shang Jianzhong | 11 |
#9 | Williams Charlotte Katherine | 10 |
#10 | Mcleod Christopher Neil | 10 |
Publication | Filing date | Title |
---|---|---|
CN110286266A | Intelligent integrated ammeter and the solar panel system for using the intelligent integrated ammeter | |
US2019320944A1 | Biomechanical activity monitoring | |
GB201902695D0 | Redox flow cell | |
GB201902630D0 | Analyte detection method | |
US2019248956A1 | Poly(l-lysine isolphthalamide) (plp) polymers with hydrophobic pendant chains | |
GB201901991D0 | Cancer | |
GB201901120D0 | Methods | |
GB201901147D0 | Trans-oral surgery device | |
GB201820660D0 | Cancer treatments | |
GB201820659D0 | Novel compostions and their use in therapy | |
GB201820382D0 | Analysing biological material | |
GB201820385D0 | Analysing biological material | |
GB201820157D0 | Method of treatment | |
GB201820014D0 | Axial flow rotor | |
GB201819839D0 | MAP4K4 inhibitors | |
GB201819459D0 | Redox flow battery | |
GB201819211D0 | Verification of perception systems | |
GB201818513D0 | High strength porous cement-based materials | |
GB201818410D0 | Compounds | |
GB201817972D0 | Adsorption of lignin |