HySiLabs has a total of 31 patents globally, out of which 1 have been granted. Of these 31 patents, more than 87% patents are active. Europe is where HySiLabs has filed the maximum number of patents, followed by Canada and Brazil. Parallelly, Europe seems to be the main focused R&D center and is also the origin country of HySiLabs.
HySiLabs was founded in 2015 by Pierre-Emmanuel Casanova and Vincent Lome. Company is doing business in providing unique hydrogen transportation solution.
Do read about some of the most popular patents of HySiLabs which have been covered by us in this article and also you can find HySiLabs’ patents information, the worldwide patent filing activity and its patent filing trend over the years, and many other stats over HySiLabs’ patent portfolio.
How many patents does HySiLabs have?
HySiLabs has a total of 31 patents globally. These patents belong to 7 unique patent families. Out of 31 patents, 27 patents are active.
How many HySiLabs patents are Alive/Dead?
Worldwide Patents
Patent Families
How Many Patents did HySiLabs 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 | HySiLabs Applications Filed | HySiLabs Patents Granted |
| 2018 | 1 | – |
| 2019 | 24 | – |
| 2020 | 5 | – |
| 2021 | 1 | 1 |
How Many Patents did HySiLabs File in Different Countries?
Countries in which HySiLabs Filed Patents
| Country | Patents |
| Europe | 5 |
| Canada | 3 |
| Brazil | 3 |
| Korea (South) | 3 |
| China | 3 |
| Australia | 3 |
| India | 3 |
| United States Of America | 2 |
| South Africa | 1 |
Where are Research Centers of HySiLabs Patents Located?
What Percentage of HySiLabs US Patent Applications were Granted?
HySiLabs (Excluding its subsidiaries) has filed 2 patent applications at USPTO so far (Excluding Design and PCT applications). Out of these 0 have been granted leading to a grant rate of 0%.
Below are the key stats of HySiLabs patent prosecution at the USPTO.
Which Law Firms Filed Most US Patents for HySiLabs?
| Law Firm | Total Application | Success Rate |
| Maschoff Brennan | 2 | 0% |
Because of handling and safety concerns, storing and delivering hydrogen in its gaseous form is difficult. Even at high pressure, which is the most common manner of carrying the element, hydrogen has a low density, which raises transportation costs and greenhouse gas emissions. Hydrogen technologies are challenging to develop on a broad scale due to these obstacles.
By charging and releasing hydrogen in a novel liquid carrier, HySiLabs developed an innovative solution to simplify hydrogen (H2) transportation (HydroSil). By addressing safety, legislation, and supply chain challenges, HySiLabs’ breakthrough idea has the potential to erase all hurdles to the deployment of hydrogen solutions.
HydroSil is charged with hydrogen and electricity using industrial processes that are plugged into hydrogen generating sites. HydroSil is non-toxic and stable, and it follows the same logistics as other liquid fuels. Hydrogen is delivered to industry or the H2 mobility sector on demand and without requiring any energy input from Hydrosil.
List of HySiLabs Patents?
| HySiLabs Patents | Title |
| US20210269305A1 | Hydrogen carrier compounds |
| US20210017021A1 | Process for producing and regenerating hydrogen carrier compounds |
| EP3887304A1 | Catalysed process of production of hydrogen from silylated derivatives as hydrogen carrier compounds |
| EP3816204A1 | Process for producing and regenerating hydrogen carrier compounds |
| EP3788003A1 | Process for producing and regenerating hydrogen carrier compounds |
| EP3788001A1 | Hydrogen carrier compounds |
| EP3659964A1 | Catalysed process of production of hydrogen from silylated derivatives as hydrogen carrier compounds |
| CN113329968A | Catalysed process of production of hydrogen from silylated derivatives as hydrogen carrier compounds |
| CN112203972A | Process for producing and regenerating hydrogen carrier compounds |
| CN112203971A | Hydrogen carrier compounds |
| WO2021084044A1 | Hydrogen carrier compounds |
| WO2021084046A1 | Process for producing and regenerating hydrogen carrier compounds |
| WO2020108913A1 | Catalysed process of production of hydrogen from silylated derivatives as hydrogen carrier compounds |
| WO2019211301A1 | Process for producing and regenerating hydrogen carrier compounds |
| WO2019211300A1 | Hydrogen carrier compounds |
| CA3114552A1 | Catalysed process of production of hydrogen from silylated derivatives as hydrogen carrier compounds |
| CA3096774A1 | Process for producing and regenerating hydrogen carrier compounds |
| CA3096771A1 | Hydrogen carrier compounds |
| ZA202006165B | Hydrogen carrier compounds |
| BR112021010071A2 | Catalyzed hydrogen production process from silly derivatives as hydrogen coaling compounds |
| KR1020210095631A | Methods of catalyzed hydrogen from silylated derivatives as hydrogen carrier compounds |
| IN202147023211A | Catalysed process of production of hydrogen from silylated derivatives as hydrogen carrier compounds |
| AU2019389082A1 | Catalysed process of production of hydrogen from silylated derivatives as hydrogen carrier compounds |
| BR112020022309A2 | Compounds Hydrogen carriers |
| BR112020022271A2 | Process to produce and regenerate Hydrogen carrier compounds |
| KR1020210003201A | Hydrogen carrier compound |
| KR1020210003200A | Method for producing and regenerating hydrogen carrier compound |
| AU2019264447A1 | Hydrogen carrier compounds |
| AU2019264448A1 | Process for producing and regenerating hydrogen carrier compounds |
| IN202047046937A | Hydrogen carrier compounds |
| IN202047047030A | Process for producing and regenerating hydrogen carrier compounds |