Portfolio

For 13 years we have been successfully implementing high-tech projects around the world
Behind our backs, our specialists have many years of experience in implemented projects to ensure the life of humans and living organisms with technological solutions necessary to preserve life and maintain health in a variety of conditions: on the water and deep under water (at submersion depths of underwater vehicles -4000 meters) and in various areas sushi on three continents: From urban conditions in various countries (Russia, European countries, USA, Israel, UAE) to sparsely populated places, including climatically extreme: desert and arctic zones (Antarctic research station "Vostok").

"On the Shoulders of Giants"

Some of our most requested developments
2008 - present

Development of nature-like technologies, their development in production and the release of high-tech products and sustainable life support systems.
2008 - present

Development of nature-like technologies, their development in production and the release of high-tech products and sustainable life support systems.
Conducting fundamental and applied scientific research and testing in the field of convergent sciences (NBICS) and nature-like technologies, along with their development in the production and release of high-tech graphene-containing products and the creation of systems, technologies and complexes for sustainable life support.
An active research into the possibilities and methods of application, the development of technologies and the production of environmentally friendly nanomaterials and products to improve the quality of life, preserve human health and cleanse the environment.

At the moment, technologies, materials, devices and life support systems have been developed, created and successfully (uninterruptedly) operating all over the world, which provide all the vital needs of man on Earth. Work continues to improve technologies to ensure work to ensure a decent quality of life for every person on Earth, restore the planet's ecosystems, space flights and colonize the Cosmos.
2008 - present

Nanomaterials.
Development of methods for atomic-molecular design and production.

Abandoning the concept of planned obsolescence through application.

A new word in resource management: the technology of processing all types of waste into graphene and nanomaterials with predetermined basic properties, which are in demand in all spheres of human life and are of great importance for the ecology of the planet.

2008 - present

Nanomaterials.
Development of methods for atomic-molecular design and production.

Abandoning the concept of planned obsolescence through application.

A new word in resource management: the technology of processing all types of waste into graphene and nanomaterials with predetermined basic properties, which are in demand in all spheres of human life and are of great importance for the ecology of the planet.

Since 2008, our scientists have been actively searching for environmentally friendly technologies and methods of their production, as well as possible applications for health protection, improving the quality and extension of human life, and restoring the environment. Nanomaterials are purchased and used in life support systems of our own production, for the production of products and in the construction of engineering and technical complexes.
2010 - engineers and scientists of the Association begin to independently develop methods of atomic-molecular design and production. The created nanomaterials with programmable and unique properties have unprecedentedly extended the life of products and made it possible to achieve the world's best indicators in the industry.
Continuous research and the search for solutions in the field of waste management have led to the emergence of a fundamentally new technology for waste management. The use of quantum technologies made it possible to master the technology of transformation and synthesis of elements.
"Green" graphene is a nature-like technology for recycling renewable raw materials: processing waste of all types (including toxic) into environmentally friendly nanomaterials with desired properties (graphene and nanomaterials based on it). Waste no longer exists as everything is a valuable resource, just like in nature. Since 2018, all NPO Teslar products have been manufactured using green graphene technology and nanomaterials obtained using this technology. More details on the page: Teslar green graphene technology

Since Teslar SIA is not only a developer of graphene technologies, but also a manufacturer of graphene, we are eagerly expanding our research program and inviting all interested parties to cooperate in the implementation of environmentally friendly graphene technologies and joint research in search of possible environmental applications of nanomaterials.
2008 -2018

Quantum technologies in lighting.

A new level of energy efficiency and resource conservation.
Light spectrum control technologies.

Health-saving technologies.
Safe environment, vision hygiene and sanitary and epidemiological well-being.

2008 -2018

Quantum technologies in lighting.

A new level of energy efficiency and resource conservation.
Light spectrum control technologies.

Health-saving technologies.
Safe environment, vision hygiene and sanitary and epidemiological well-being.

2008 - development and production of graphene-containing lighting devices for various purposes. The service life of products has been extended to a record, and maximum resource efficiency has been achieved. For 13 years of implementation (for 2021), not a single lighting device has failed.
2018 - A breakthrough in technology for controlling the spectral composition of light has been achieved. The technology has been developed for 11 years with reputable international scientific institutions. Samples of graphene-containing products for research were provided to the agrophysical, agricultural, and biomedical research institutes in Russia and Europe. Improved health indicators in living organisms have been proven.
The innovation has made a significant contribution to the development of sanitary and hygienic safety and vision hygiene. Biologically adequate light for humans and animals has been created, capable of protecting health (nanomedicine and health preservation), as well as an ultra-efficient phytolight, which ensures an increase in the productivity and resistance of plants and obtaining high-quality plant products in protected ground conditions (bionanotechnology).
In terms of their properties, the products surpass analogues of other manufacturers in a number of characteristics: energy efficiency, safety, durability, light quality and color rendering, breadth of application functionality, and so on.
Health-preserving technologies can prevent the development of disability, maintain health, improve tone and well-being without invasive intervention.
More details on the page: Teslar Lighting Technologies
2011- 2019

Bionanotechnology.
Improvement of methods for managing the state of organic compounds and plant productivity.

Food security. Naturopathy. Technologies for obtaining high quality food products, cancer protectors, and herbal medicines.

Development of effective and environmentally friendly (waste-free) technologies for year-round intensive resource-saving production of high-quality plant products in any premises and structures.
2011- 2019

Bionanotechnology.
Improvement of methods for managing the state of organic compounds and plant productivity.

Food security. Naturopathy. Technologies for obtaining high quality food products, cancer protectors, and herbal medicines.

Development of effective and environmentally friendly (waste-free) technologies for year-round intensive resource-saving production of high-quality plant products in any premises and structures.
2011 - Scientists and engineers of Teslar SIA join the study of the growth processes and vital activity of living organisms in the testing laboratory of the Agrophysical Research Institute of RASN (St. Petersburg) in a regulated agroecosystem using vegetation plants of various types. Development and construction of regulated agroecosystems in a technogenic environment based on the principles of physical modeling of the conditions of their natural counterparts. Including imitation of the full continuous solar spectrum, photoperiodicity and other modern methods of intensive year-round cultivation and management of the state of organic compounds and plant productivity.

High-precision agricultural technologies have incorporated the achievements of a number of scientific disciplines and represent a new environmentally friendly way of producing high-quality herbal products and medicines. These are the most effective technologies in international practice, excluding the ingestion of mutagens, carcinogens, pesticides and herbicides into food and industrial waste-free technologies for obtaining food products - oncoprotectors that can prevent a pandemic of cancer, diabetes, cardiovascular diseases and another three dozen of the most dangerous killer diseases of our century.

In 2019, the results of 8 years of research and testing with the Agrophysical Research Institute of RASN, technologies for the use of two-dimensional materials and graphene-containing lamps for year-round intensive resource-saving production of high-quality plant products were published. Demonstrated record yields and high quality, with the most stringent environmental requirements. This time, a significant contribution was made to the development of agricultural technologies (city farming), food security and epidemiological well-being of the population.

By 2020, a number of significant projects have been implemented and engineering and technical complexes have been built - autonomous phytocomplexes of various sizes. From smart mobile bio cameras designed for an apartment or an autonomous complex for a hundred people to stationary scalable greenhouse complexes that can feed a district or city. All year round, regardless of the climate, our technologies provide people with healthy vegetables and fruits, green and salad crops. In urban apartments and in extreme climatic conditions - 365 days a year around the world. More details on the pages: Bionanotechnology Teslar
2019 o present

Space program.

Space medicine and health-saving technologies.

Development of sustainable life support technologies.

2019 o present

Space program.

Space medicine and health-saving technologies.

Development of sustainable life support technologies.

In 2019, the scientists and engineers of NPO Teslar joined the participation in fundamental and applied research and test work to support space flights and biomedical experiments on Earth and in Space.
Research at the Vostok Antarctic Research Station was aimed at growing plants and analyzing the rate of biomass growth and morpho-physiological characteristics of the grown plants. Collecting data for improving medical equipment and life support systems.

During 2020, the 65th Russian Antarctic Expedition managed to ensure the normal functioning of the greenhouse, based on the needs of the year-round supply of the polar explorers of Vostok station with food additives of plant origin. This made it possible for the first time in the entire existence of the Vostok station to grow plants not only for scientific research, but also as a food additive to the standard diet.

Biologically adequate lighting and an automatic phytotechnical complex for year-round cultivation of plants (food-oncoprotectors and medicinal plants) improved the sanitary-epidemiological state and the quality of life of the crew members. It was also possible to create conditions for favorable psychological comfort at the station and a set of experimental data in relation to the creation of future biological life support systems on Earth, during flights of crews into deep space and during the development of new planets and territories.

In 2021, the 66th Russian Antarctic Expedition will be provided with fresh nutritious food of the highest quality and a safe video environment. More details
LED-nano

The history of the introduction of graphene-containing
lighting equipment

Created using atomic-molecular design technologies and materials obtained using the "green" graphene technology. It has been introduced worldwide since 2008. In the entire history of observations, not a single device has failed. Today, in different configurations, it performs various or several functions at once: Lighting, Power, Connection, Protection.
Learn more about modern lighting technologies
Below are some of the most significant examples of our work on replacing lighting facilities as part of our environmental and technological modernization program
In the Russian Federation:
Reconstruction of overhead lighting in 6,7,8 spans of workshop No 6 (total area more than 90,000 sq.m., suspension height of lamps up to 35 m.) LLC IZ-KARTEX named after P.G. Korobkova, (The company is part of the OMZ holding), Kolpino.
Internal lighting of the Big and Small engineering buildings at the Izhora factories (2600 lamps).
Reconstruction of riding and street lighting at Penoplex-SPb factories in Kirishi, Taganrog and Perm. The suspension height of the lamps is 19 meters (1630 lamps).
Reconstruction of lighting for underground parking and household lighting in the residential complex "Petrovsky-14" (6 multi-storey buildings). St. Petersburg. (1200 lamps).
Lighting of the administrative and household complex of Izhorskiye Zavody (2500 lamps).
For social and industrial infrastructure
Re-equipment of school lighting in the Leningrad region
Kindergartens, boarding schools, schools, clinics and hospitals can become objects of support and participants in sponsorship programs
In other countries of the world:
  • Street lighting in Israel (Ashdod)
  • Hospital in Nottingham, UK, Nottinghamshire
  • Warehouse buildings in New Jersey (USA)
  • and many other objects.
Check out the results of the energy efficiency project here
Feedback from our users

Plant factories
Autonomous phytocomplexes

We implement high-tech projects of various sizes around the world. From autonomous phytocomplexes of mobile biochambers designed for an apartment or an autonomous complex for a hundred people to stationary scalable greenhouse complexes capable of feeding a district or city. All year round, regardless of climate, our technologies provide people with healthy vegetables and fruits, green and salad crops. In urban apartments and in extreme climatic conditions (Vostok Antarctic Station, for example).

365 days a year across the planet for the benefit of HUMANITY

In the Russian Federation, our technologies were highly appreciated by the Institute for Biomedical Problems and the Institute of the Arctic and Antarctic. Specialists of the Department of Plant Light Physiology and Bioproductivity of Agroecosystems of the Agrophysical Research Institute of the Russian Academy of Agricultural Sciences were directly involved in research work and development of application technologies. The work was carried out for 8 years also in European institutions.

The development of these technologies was carried out for several decades by researchers from all over the world - 30 years ago it became obvious to farmers and farmers that growing food in the open field is more unsafe and not efficient enough. We have made a significant contribution to the development of greenhouse technology and food production. We continue to work every day to make our technologies even more efficient and more accessible for people of all kinds of income and without it at all. We sincerely want people to receive healthy food in every kindergarten and in every home and office. Because plant-based nutrition is the basis of a healthy life and it has been experimentally established that it can stop the cancer epidemic.

A significant result in the development of food cultivation technologies was achieved by applying in practice an integrated approach to plant cultivation, and a number of revolutionary developments that became possible thanks to long-term cooperation with research institutions. So, in order to ensure a timely harvest, our greenhouses use an optimized light and special nutrient medium. And for light irradiation, a unique and extremely phytoeffective light is used.

We made sustainable food production possible with the highest level of programmability and automation because we want everyone to be given the opportunity to be part of the solution, not part of the problem. To give everyone the opportunity not only to extend their lives, but also to really influence the situation on the entire planet. Because a nutrition strategy is an opportunity for each person to significantly reduce their carbon footprint, which means to slow down the rate of destruction of the planet's ecosystems, or even stop the global extinction of species on our planet.