New technologies for energy, environment and biomedical applications

Summary

Profile Type

Technology offer

POD Reference

TOUA20250402007

Term of Validity

2 April 2025 - 2 April 2026

Company's Country

Ukraine

Type of partnership

Commercial agreement with technical assistance
Research and development cooperation agreement

Targeted Countries

All countries

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General information

Short Summary

Ukrainian scientific research organization. It is located in the city of Kyiv. The main activity is the synthesis and research of new functional materials for energy and biomedical applications. Offers new materials for superpowers (electrodes and electrolytes); production of solar hydrogen (anode materials), which can be used for home energy storage; catalysts for the decomposition of ammonia with the formation of hydrogen; materials to stop blood, cancer, osteoporosis and diabetes protection.

Full Description

Innovative algorithms to quantify state-of-the-art battery compliance in terms of time and efficiency, control of electrode surface condition and electrolyte depletion (safe, affordable and reliable battery operation and compatible with the battery passport concept) using electrochemical impedance spectroscopy data (or measurements using an alternative current) can be part of a battery management system (BMS) design for single module operation or recombination (reconfiguration) of battery modules or blocks for consolidated and new battery technologies. Data from electrochemical impedance spectroscopy and calculation of capacitance and capacitance dispersion can be used to detect electrode condition and electrolyte depletion. The resulting data is simply transformed into visible images using open source software and can be trusted with further use of artificial intelligence. Algorithms have been tested on primary battery systems and have shown good results for detecting the effects of temperature, controlling electrode damage, and changes in electrolyte concentration. More than 100 electrochemical systems have been tested according to the proposed algorithms using open software. This proposal has a national patent and implementation in the production of electronic devices after the implementation of the National Scientific Project funded by the National Academy of Sciences of Ukraine.
Solar hydrogen production technologies can be used to improve the reliability and stability of the power supply system proposed by using photovoltaic systems to convert solar energy into a hydrogen chemical energy collector as a kind of new multi-purpose energy storage solution and the opportunity to realize the possibility of efficient operation of hybrid storage in grid-modes connected, grid-following and grid-forming. The Institute could produce photoanodes for photovoltaic cells and elements required for efficient hydrogen reduction using narrow-bandgap semiconductors, which can be achieved by surface modification of photoanodes from CdSe, GaAs, InP, etc. with nanoparticles and quantum dots of the corresponding metals, for example Pt, Zn or Au or semiconductors such as ZnS or CdS.
Materials for energy applications increase the kinetic characteristics of devices by more than 15% and 10% for ammonia decomposition technologies, technologies for the production of microfertilizers and feed additives, monitoring the health of batteries, cleaning large surfaces from radionuclides and toxic compounds, and producing solar hydrogen for household appliances.

The target partners are: European academic institutions with their own technological base, research centers specializing in processes and energy storage, biomedical purposes, agricultural complexes and small enterprises to realize the possibility of increasing the level of readiness of scientific products to TRL5-7.

The client is looking for the following types of agreements: a partnership agreement in the Horizon EU Research and Innovation Framework (2021-2027), contracts for the creation of a Joint Research Center, creation of license agreements and patents to increase the level of readiness of scientific products.

Advantages and Innovations

The main advantages for the user are low costs (more than 2 times the retail cost of such materials), nontoxic, and eco-friendly (natural degradation without the formation of toxic products).
This algorithm takes less time for measurements (about 3-5 min) and could be replicated in new artificial intelligence technologies. TRL-5

Stage of Development

Available for demonstration

Sustainable Development Goals

Goal 7: Affordable and Clean Energy
Goal 9: Industry, Innovation and Infrastructure
Goal 3: Good Health and Well-being
Goal 6: Clean Water and Sanitation

IPR status

IPR granted

Partner Sought

Expected Role of a Partner

The client is looking for such partners:
1- Research organizations, including academic institutions, with modern equipment for the study of the properties of materials and the experimental verification of these materials in chemical processes, life systems and field conditions.
2- SMEs for the application of materials and technologies in devices and production processes.

Type and Size of Partner

Other
SME 11-49
R&D Institution
University
SME 50 - 249

Type of partnership

Commercial agreement with technical assistance
Research and development cooperation agreement

Dissemination

Technology keywords

03003 - Apparatus Engineering
04005004 - Photovoltaics
04001003 - Storage of electricity, batteries

Market keywords

08001015 - Other speciality materials
03003 - Power Supplies
06008 - Energy Storage
06003002 - Photovoltaics

Sector Groups Involved

Energy-Intensive Industries
Renewable Energy

Targeted countries

All countries