Rosneft Oil Company has a total of 44 patents globally, out of which 12 have been granted. Of these 44 patents, more than 90% patents are active. China is where Rosneft Oil Company has filed the maximum number of patents, followed by United States and Argentina, it has generated an annual revenue of $ 79.6 billion in the year 2020. Parallelly, Russia seems to be the main focused R&D centre of the company.
Rosneft Oil Company was created in 1933 as a state enterprise. Headquartered in Moscow, Russia, specialises in the exploration, extraction, production, refining, transport, and sale of petroleum, natural gas, and petroleum products. As of February 2022, Rosneft Oil Company has a market cap of $80.461 Billion.
Do read about some of the most popular patents of Rosneft Oil Company which have been covered by us in this article and also you can find Rosneft Oil Company’s patents information, the worldwide patent filing activity and its patent filing trend over the years, and many other stats over Rosneft Oil Company’s patent portfolio.
How many patents does the CEO of Rosneft Oil Company has?
The CEO, Igor Sechin, has 0 patent.
How many patents does Rosneft Oil Company have?
Rosneft Oil Company has a total of 44 patents globally. These patents belong to 12 unique patent families. Out of 44 patents, 40 patents are active.
How many Rosneft Oil Company patents are Alive/Dead?
Worldwide Patents
Patent Families
How Many Patents did Rosneft Oil Company 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 | Rosneft Oil Company Applications Filed | Rosneft Oil Company Patents Granted |
| 2011 | – | – |
| 2012 | – | – |
| 2013 | – | – |
| 2014 | – | – |
| 2015 | – | – |
| 2016 | 7 | – |
| 2017 | 21 | – |
| 2018 | 2 | 1 |
| 2019 | 11 | – |
| 2020 | 3 | 5 |
| 2021 | – | 5 |
| 2022 | – | 1 |
How Many Patents did Rosneft Oil Company File in Different Countries?
Countries in which Rosneft Oil Company Filed Patents
| Country | Patents |
| China | 8 |
| United States Of America | 5 |
| Argentina | 4 |
| Australia | 4 |
| Brazil | 4 |
| Japan | 4 |
| Canada | 4 |
| Europe | 3 |
| Korea (South) | 2 |
| Norway | 1 |
| Germany | 1 |
Where are Research Centres of Rosneft Oil Company Patents Located?
What Percentage of Rosneft Oil Company US Patent Applications were Granted?
Rosneft Oil Company (Excluding its subsidiaries) has filed 7 patent applications at USPTO so far (Excluding Design and PCT applications). Out of these 4 have been granted leading to a grant rate of 100%.
Below are the key stats of Rosneft Oil Company patent prosecution at the USPTO.
Which Law Firms Filed Most US Patents for Rosneft Oil Company?
| Law Firms | Total Applications | Success Rate |
| Rosneft Oil Company | 7 | 100.00% |
| Bp Exploration Operating Company Limited | 2 | 0% |
| Contant, Mathias | 2 | 0% |
| Eliseev, Artem Anatolievich | 2 | 100.00% |
| Grigor’ev, Dmitrij Aleksandrovich | 2 | 100.00% |
| Lukashin, Alexey Viktorovich | 2 | 100.00% |
| Mamonov, Nikolaj Aleksandrovich | 2 | 100.00% |
| Mikhajlov, Mikhail Nikolaevich | 2 | 100.00% |
| Bessudnov, Aleksej Eduardovich | 1 | 100.00% |
| Brotcman, Viktor Andreevich | 1 | 100.00% |
Construction in permafrost zones may be required for oil and gas extraction. Rosneft has about a fifth of its production and proven liquid reserves located in permafrost. When operating in permafrost, the company prioritises industrial safety, reducing its environmental footprint, and employing creative ways.
The company’s innovation department is working on high-resolution technologies for the research and assessment of reserves, 3D modeling of complex geological structures, new systems for the development of low-permeability and structurally complex reservoirs, technologies for ensuring environmental safety of offshore operations and many other.
List of Rosneft Oil Company Patents
| Rosneft Oil Company Patents | Title |
| US11213805B2 | Catalyst for the conversion of natural or associated gas into synthesis gas in an autothermal reforming process and method for preparing the same |
| US20200309975A1 | Seismic sensor |
| US10761040B2 | Planar thermocatalytic sensor of combustable gases and vapours |
| US20200241156A1 | Seismic sensor |
| US10047306B2 | Method of fractionating mixtures of low molecular weight hydrocarbons |
| EP3685191A1 | Seismic sensor |
| EP3685192A1 | Seismic sensor |
| CN113924512A | Sensor assembly |
| CN113892039A | Seismic sensor and method related to seismic sensor |
| CN107530629B | Process for fractionating low molecular weight hydrocarbon mixtures |
| CN107533023B | Planar Thermocatalytic Sensors for Combustible Gases and Vapors |
| CN111512185A | Seismic sensor |
| CN111465875A | Seismic sensor |
| CN110035821B | Catalyst for converting natural gas or associated gas into synthesis gas in autothermal reforming process and preparation method thereof |
| CN109952143A | Method of extracting components of gas mixtures by pertraction on nanoporous membranes |
| WO2020242335A1 | Sensor assembly |
| WO2020242336A1 | Seismic sensor and methods related thereto |
| WO2019059799A1 | Seismic sensor |
| WO2019059798A1 | Seismic sensor |
| JP6830954B2 | Planar thermal catalyst sensor for flammable gas and vapor |
| JP2021006346A | Method for extracting component of gas mixture by pertraction on nanoporous membrane |
| JP6816269B2 | A method for extracting components of a gas mixture by partion on a nanoporous membrane |
| JP6816113B2 | How to Fraction a Mixture of Low Molecular Weight Hydrocarbons |
| CA3141004A1 | Sensor assembly |
| CA3141601A1 | Seismic sensor and methods related thereto |
| CA3075873A1 | Seismic sensor |
| CA3075871A1 | Seismic sensor |
| AU2019447732A1 | Seismic sensor and methods related thereto |
| AU2019448133A1 | Sensor assembly |
| AU2017432806A1 | Seismic sensor |
| AU2017432225A1 | Seismic sensor |
| BR112021023434A2 | Seismic sensor and methods related thereto |
| BR112021023569A2 | Seismic sensor |
| EA039047B1 | Seismic sensor |
| AR119006A1 | Seismic sensor |
| AR119005A1 | Seismic sensor and methods related thereto |
| BR112020005464A2 | Seismic sensor |
| BR112020005453A2 | Seismic sensor |
| KR102081172B1 | Catalyst activation method, reactor and method for obtaining hydrocarbons in Fischer-Tropsch process |
| AR113129A1 | Seismic sensor |
| AR113130A1 | Seismic sensor |
| KR102068691B1 | Catalyst for conversion of natural or companion gas to syngas in autothermal reforming process and method for preparing same |
| NO20190580A | Method of extracting components of gas mixtures by pertraction on nanoporous membranes |
| DE112016001986T5 | Planar thermocatalytic sensor of flammable gases and vapors |