RES & INNOVATION UK has a total of 232 patent applications. It increased the IP activity by 93.0%. Its first patent ever was published in 2002. It filed its patents most often in EPO (European Patent Office), United Kingdom and Australia. Its main competitors in its focus markets pharmaceuticals, biotechnology and measurement are UNIV LOUISVILLE RES FOUND, UNIV YALE and INSERM (INSTITUT NATIONAL DE LA SANTÉ ET DE LA RECH MÉDICALE).
# | Country | Total Patents | |
---|---|---|---|
#1 | EPO (European Patent Office) | 58 | |
#2 | United Kingdom | 38 | |
#3 | Australia | 35 | |
#4 | United States | 34 | |
#5 | WIPO (World Intellectual Property Organization) | 26 | |
#6 | China | 9 | |
#7 | Singapore | 9 | |
#8 | Canada | 6 | |
#9 | Republic of Korea | 4 | |
#10 | EAPO (Eurasian Patent Organization) | 3 | |
#11 | Israel | 3 | |
#12 | Brazil | 2 | |
#13 | Hong Kong | 1 | |
#14 | Hungary | 1 | |
#15 | Japan | 1 | |
#16 | Mexico | 1 | |
#17 | Nicaragua | 1 |
# | Industry | |
---|---|---|
#1 | Pharmaceuticals | |
#2 | Biotechnology | |
#3 | Measurement | |
#4 | Materials and metallurgy | |
#5 | Electrical machinery and energy | |
#6 | Foods and drinks | |
#7 | Chemical engineering |
# | Technology | |
---|---|---|
#1 | Medical preparations | |
#2 | Analysing materials | |
#3 | Therapeutic chemical compounds | |
#4 | Microorganisms | |
#5 | Peptides | |
#6 | Measuring microorganism processes | |
#7 | Non-metallic elements | |
#8 | Electric discharge tubes | |
#9 | Chemical or physical processes | |
#10 | Enzymes |
# | Name | Total Patents |
---|---|---|
#1 | Powell Jonathan Joseph | 33 |
#2 | Faria Nuno Jorge Rodrigues | 27 |
#3 | Vis Bradley Michael | 12 |
#4 | Bastos Carlos Andre Passos | 11 |
#5 | Bertolotti Anne | 8 |
#6 | Russo Christopher | 8 |
#7 | Tripodi Marco | 7 |
#8 | Ciabatti Ernesto | 7 |
#9 | Faria Nuno | 7 |
#10 | Chin Jason W | 6 |
Publication | Filing date | Title |
---|---|---|
GB202102471D0 | Fusion proteins and nucleic acid constructs | |
GB202101749D0 | Estimating properties of surfactant mixtures | |
GB202100255D0 | Radio frequency module | |
GB202018937D0 | Compact high energy regenerative amplifier | |
GB202018015D0 | Composition and methods for the treatment of intestinal cancer | |
GB202017739D0 | Atmospheric pressure sensor | |
GB202016684D0 | Photoreactor and source for generating UV and VUV | |
GB202016200D0 | Compact linac | |
GB202005737D0 | Satellite communications system | |
GB202004272D0 | Electron microscopy support | |
GB202004010D0 | Detection of water content in tissue | |
GB202002441D0 | Measuring snowfall | |
GB202001372D0 | Bioprinters | |
GB201917810D0 | Method and system for producing hydrogen | |
GB201914695D0 | An electron cryomicroscope | |
EP3813941A1 | Microrna targeting agent for treatment of heart disease | |
EP3813844A1 | Treatment of cardiomyopathy through modulation of hypoxia-induced erna activity | |
GB201907686D0 | Mechanism for adjusting the field of a multiple magnet | |
GB201906775D0 | Synthetic genome | |
GB201904420D0 | Graphene transfer process |