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Draft:Marius Andreassen Jakobsen

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Marius Andreassen Jakobsen (born 14 May 1984) is a Norwegian engineer, entrepreneur, inventor, in the field of graphene and carbon technology. He is the founder of CealTech AS and AIDA AS, and holds patents related to graphene and carbon nanotube yarn production. Jakobsen has been involved in significant research projects, including cancer research, DNA based Carbon arrays, and PECVD grown anode/cathode.

Early Life and Education

Marius Jakobsen was born in Norway and, despite having no formal education, he has developed a deep understanding of materials science, particularly in the area of graphene. His work in this area has led him to become a prominent figure in the technology and research sectors.

Career

In 2012, Jakobsen founded CealTech AS, a technology company based in Stavanger, Norway, that specializes in the development and commercialization of graphene-based products. As the technical manager and chairman of the company, he was responsible for patent applications, project management, and research and development. His work in CealTech resulted in the development of advanced graphene production technologies and products, including his work on drug delivery systems using graphene nanomaterials.

Jakobsen founded AIDA AS in 2021, another technology company, where he continues to oversee patent applications and the development of technical solutions in the fields of HVAC and graphene technology. AIDA AS is focused on research and development for industries such as oil and gas, where Jakobsen has introduced several patent pending innovations. One notable innovation is his reactor patent (EP4108632A1), which describes a PECVD (Plasma-Enhanced Chemical Vapor Deposition) apparatus for the continuous production of high-performance carbon yarn. This reactor has the potential to revolutionize industries by producing carbon nanotube yarn at scale.

Graphene and Carbon Nanotube Yarn

Graphene is a two-dimensional material consisting of a single layer of carbon atoms arranged in a hexagonal lattice. It is known for its extraordinary properties, including exceptional strength, electrical conductivity, and flexibility. Due to these characteristics, graphene is used in applications ranging from energy storage to biomedicine and electronics.

Carbon nanotube yarn

is made from carbon nanotubes, which are cylindrical molecules made of carbon atoms with exceptional mechanical, thermal, and electrical properties. These yarns can be used to create strong, lightweight, and conductive materials, with applications in electronics, aerospace, and energy sectors.

Jakobsen’s reactor patent offers a highly efficient method for producing high-performance carbon thread (yarn). The yarn produced through this reactor can be used in industries like aerospace, energy storage, and wearable electronics, where materials need to be both lightweight and incredibly strong.

Research and Collaborations

Throughout his career, Jakobsen has worked with leading academic institutions and research centres. He collaborated with the California Institute of Technology, Kyiv National University of Technologies and Design, and the University of Stavanger to mention a few, on a range of projects related to graphene's applications in energy storage and biomedical fields.

Patents

Jakobsen holds two patents, including: • US20230357017A1: Production of graphene • EP4108632A1: Production of carbon nanotube yarn

He has also filed additional patents related to hydrogen production, graphene-reinforced polymers, new generation of windmills and high-performance carbon nanotube yarn batteries and synthetic diamond production.

Potential Applications of the EP4108632A1 Reactor The EP4108632A1 reactor, which uses a PECVD process to create continuous carbon thread, has a wide range of applications:

• Aerospace: Lightweight carbon yarn can be used to create stronger and lighter materials for aircraft and spacecraft components.

• Energy Storage: Carbon nanotubes are excellent conductors, making them useful in batteries and supercapacitors.

• Medical Devices: The conductivity and strength of carbon yarn could be used to create advanced medical devices such as biocompatible implants.

• Textiles: Wearable electronics can benefit from carbon nanotube yarn for flexible and durable conductive fabrics.

Awards and Recognition

Jakobsen has been recognized for his contributions to graphene research and his innovations in materials science. His work has made significant impacts in the fields of energy, technology, and healthcare.

Personal Life

Marius Jakobsen resides in Stavanger, Norway, and continues to work on innovative solutions in graphene technology. He serves as the head of AIDA AS and remains active in research and development.

References

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