Apoha has a total of 49 patents globally, out of which 16 have been granted. Of these 49 patents, 89% patents are active. Europe (EPO) and United Kingdom is where Apoha has filed the maximum number of patents, followed by United States of America and India. Parallelly, United Kingdom seems to be the main focused R&D centre and also is the origin country of Apoha.
Apoha was founded in 2002. This company builds sensory intelligence software that helps machines understand the physical world. Its technology captures the unique “sensory fingerprints” of complex molecules and materials.
It maps them based on their physical and biological properties, and analyzes how different molecules behave – how they bend, ripple, float, or dissolve. By doing this, it helps machines interpret materials in a way similar to how living organisms sense and understand their natural environment.
Do read about some of the most popular patents of Apoha which have been covered by us in this article and also you can find Apoha patents information, the worldwide patent filing activity and its patent filing trend over the years, and many other stats over Apoha patent portfolio.
How many patents does Apoha have?
Apoha has a total of 49 patents globally. These patents belong to 9 unique patent families. Out of 49 patents, 44 patents are active.
How Many Patents did Apoha File Every Year?
Are you wondering why there is a drop in patent filing for the last two years? It is because a patent application can take up to 18 months to get published. Certainly, it doesn’t suggest a decrease in the patent filing.
| Year of Patents Filing or Grant | Apoha Applications Filed | Apoha Patents Granted |
| 2025 | 3 | 9 |
| 2024 | 9 | 3 |
| 2023 | 11 | 4 |
| 2022 | 19 | – |
| 2021 | 2 | – |
| 2019 | 5 | – |
How many Apoha patents are Alive/Dead?
Worldwide Patents
How Many Patents did Apoha File in Different Countries?
Countries in which Apoha Filed Patents
| Country | Patents |
| Europe (EPO) | 9 |
| United Kingdom | 9 |
| United States of America | 6 |
| India | 5 |
| Germany | 4 |
| Canada | 4 |
| China | 4 |
| Poland | 2 |
| Korea (South) | 1 |
Where are Research Centers of Apoha Patents Located?
The Research Centers of Apoha Patents is United Kingdom.
What Percentage of Apoha US Patent Applications were Granted?
Apoha (Excluding its subsidiaries) has filed 4 patent applications at USPTO so far (Excluding Design and PCT applications). Out of these 1 have been granted leading to a grant rate of 93.94%.
Below are the key stats of Apoha patent prosecution at the USPTO.
Which Law Firms are managing US Patents for Apoha?
| Law Firm | Total Applications | Success Rate |
| Woodard Emhardt Henry Reeves & Wagner Llp | 3 | 0% |
| Thomas Horstemeyer Llp | 1 | 100.00% |
List of Apoha patents
| Apoha Patents | Title |
| US20260029377A1 | Method Of Controlling Sensitivity And Dynamic Range Of A Sensor |
| US20260023011A1 | Method And Apparatus For Determining Surface Wave Data In Liquids |
| EP4392772B1 | An Analytical Method And Apparatus |
| EP4280627B1 | Signal Processing Device With Lipid Interface |
| EP4392773B1 | Analytical Method, Corresponding Controller And Computer Program Product |
| GB2629131B | Characterising Biomolecules And Compositions Thereof By Measurement Of Surface Waves Excited By The Application Of Samples Of Test Substances To A Surface |
| PL4392772T3 | An Analytical Method And Apparatus |
| DE602022015919T2 | Analytical Method And Device |
| PL4392773T3 | Analytical Method, Corresponding Controller And Computer Program Product |
| DE602019068316T2 | Signal Processing Device With Lipid Interface |
| DE602022010300T2 | Analytical Method, Corresponding Controller And Computer Program Product |
| EP4669961A1 | Method And Apparatus For Characterising Biomolecules And Compositions Thereof By Measurement Of Surface Waves Excited By The Application Of Samples Of Test Substances To A Surface |
| EP4521106A3 | An Analytical Method And Apparatus |
| EP4528267A3 | An Analytical Method And Apparatus |
| EP4548088A1 | A Method Of Controlling Sensitivity And Dynamic Range Of A Sensor |
| EP4548077A1 | Method And Apparatus For Determining Surface Wave Data In Liquids |
| CN120265972A | Method And Apparatus For Determining Surface Wave Data In Liquid |
| CN120112789A | Method For Controlling Sensitivity And Dynamic Range Of Sensor |
| IN202517095867A | Method And Apparatus For Characterising Biomolecules And Compositions Thereof By Measurement Of Surface Waves Excited By The Application Of Samples Of Test Substances To A Surface |
| IN202517003936A | Method And Apparatus For Determining Surface Wave Data In Liquids |
| IN202517003937A | A Method Of Controlling Sensitivity And Dynamic Range Of A Sensor |
| KR1020250167092A | Method And Device For Characterizing Biomolecules And Their Compositions By Applying A Test Substance Sample To A Surface And Measuring The Excited Surface Waves |
| US11962355B2 | Signal Processing Device With Lipid Interface |
| GB2620764B | A Method Of Controlling Sensitivity And Dynamic Range Of A Sensor |
| GB2620750B | Ellipsometry Apparatus For Characterising Lucassen Waves |
| US20240402129A1 | An Analytical Method And Apparatus |
| US20240272123A1 | An Analytical Method And Apparatus |
| US20240267135A1 | Signal Processing Device With Lipid Interface |
| CN118891519A | Analysis Method And Device |
| CN118742807A | Analysis Method And Device |
| WO2024209189A1 | Method And Apparatus For Characterising Biomolecules And Compositions Thereof By Measurement Of Surface Waves Excited By The Application Of Samples Of Test Substances To A Surface |
| WO2024018209A1 | Method And Apparatus For Determining Surface Wave Data In Liquids |
| WO2024018225A1 | A Method Of Controlling Sensitivity And Dynamic Range Of A Sensor |
| GB202416241D0 | Method And Apparatus |
| GB202416253D0 | Method And Apparatus |
| GB202414932D0 | Method And Apparatus |
| GB2628736A | An Analytical Method And Apparatus |
| IN202417047395A | An Analytical Method And Apparatus |
| IN202417047398A | An Analytical Method And Apparatus |
| CA3262223A1 | A Method Of Controlling Sensitivity And Dynamic Range Of A Sensor |
| CA3262221A1 | Method And Apparatus For Determining Surface Wave Data In Liquids |
| EP3804175B8 | Signal Processing Device With Lipid Interface |
| GB2614079B | An Analytical Method And Apparatus |
| GB2614078B | An Analytical Method And Apparatus |
| DE602019033040T2 | Signal Processing Device With Lipid Interface |
| WO2023118869A1 | An Analytical Method And Apparatus |
| WO2023118870A1 | An Analytical Method And Apparatus |
| CA3240996A1 | An Analytical Method And Apparatus |
| CA3240992A1 | An Analytical Method And Apparatus |
What are Apoha key innovation segments?
What Technologies are Covered by Apoha?
The chart below distributes patents filed by Apoha in different countries on the basis of the technology protected in patents. It also represents the markets where Apoha thinks it’s important to protect particular technological inventions.
R&D Focus: How has Apoha search focus changed over the years?
EXCLUSIVE INSIGHTS COMING SOON!
Interested in knowing about the areas of innovation that are being protected by Apoha?
