EVERY TASK IS A CHANCE TO EXPAND
TENGENA believes in absolute integrity, where people and ideas thrive. We value our engineering history that goes back much further than that, where every element, from links in the chain to individual components, embodies a wealth of knowledge and expertise. It is well known for its national and abroad technical universities and ivy league institutions, postdoctoral fellowships that are practical and immersive, and a culture that rewards professional skills with both prestige and career growth. Furthermore, our cross-disciplinary collaboration with recognized engineering facilities gives us a vital role in addressing client needs by employing unique equipment, followed by national institutional standards. Whereas research team stem directly from traditional strengths and core capabilities.
COMPREHENSIVE SCIENCE FOR TARGETED MANUFACTURE
TENGENA operates at the intersection of fundamental research, applied science, and product development, advancing technologies through a rigorous, discovery-driven framework. We identify core challenges in the basic sciences and pursue integrative solutions across designated industrial domains—bridging theoretical inquiry with engineered implementation.
Our multidisciplinary teams—comprising theoretical scientists, systems engineers, healthcare specialists, and experimental technologists—collaborate to translate curiosity-driven research into functional, scalable devices and platforms. This convergence enables the rapid prototyping and deployment of innovations grounded in scientific rigor and industrial relevance.
TENGENA employs structured design methodologies to enhance internal research workflows, foster cross-disciplinary collaboration, and mitigate unintended societal impacts of emerging technologies. We maintain robust intellectual property protections for proprietary systems while supporting selective public access pathways to promote transparency, interoperability, and responsible innovation.
PARTNER TO MAXIMAZE TECHNICAL ATTRIBUTES
TENGENA drives transformative product development as a dedicated engineering partner, delivering cost-effective solutions across design, analysis, testing, and systems integration. Our approach is rooted in applied sciences and reinforced by a systemic methodology, enabling the deployment of alternative energy sources for material processing with enhanced or hybridized properties—optimized for accelerated, controllable, and scalable applications.
We actively foster dialogue around emerging technologies, translational research, and innovation pathways, engaging with potential collaborators to refine concepts and address implementation challenges. This open exchange supports technology maturation and strategic alignment with industrial and societal needs.
TENGENA also advances the biological and ecological integration of nanotechnology, recognizing its role in resource preservation and energy reduction across manufacturing workflows. By embedding nanoscale innovation into sustainable engineering practices, we contribute to regenerative infrastructure and environmentally adaptive production systems.
CONCEPT DESIGN AND SCALE UP CAPABILITIES TO PRODUCTION
TENGENA delivers comprehensive industrial product development services encompassing design optimization, systems analysis, integration engineering, prototyping, simulation, and full-cycle mechanical and electrical design. Our infrastructure supports both early-stage concept validation and scalable manufacturing execution.
We collaborate with automation specialists to engineer automated, semi-automated, and palletized assembly systems, including standalone stations tailored for precision throughput and modular deployment. These systems are designed for interoperability, serviceability, and high-efficiency operation across diverse production environments.
Our cross-functional engineering team brings deep expertise across:
- Consumer electronics and medical device engineering
- Precision assembly and fabrication workflows
- Advanced metal and specialty machining
- Injection molding and composite material processing
- Sheet metal design and structural reinforcement
- CNC machining and rapid prototyping platforms
This multidisciplinary capability enables TENGENA to support complex manufacturing ecosystems, from high-mix low-volume production to vertically integrated industrial scale-up—delivering performance, reliability, and strategic differentiation across sectors.
OUR TEAM
Eviana Alice Breuss, MD, PhD, Founder, PRESIDENT, CHIEF ARCHITECT, New JERSEY
Dr. Eviana Alice Breuss is a physician‑scientist, technologist, and frontier‑systems architect whose work spans quantum photonics, advanced materials, aerospace engineering, and next‑generation microelectronics. She earned her MD and PhD in Clinical Pharmacology and Biochemistry, followed by postdoctoral training in molecular biology at New York Medical College and Columbia University.
From 2000 to 2010, Dr. Breuss conducted basic and clinical research across Washington State University, Westchester Medical Center, Columbia University College of Physicians and Surgeons, and NYU School of Medicine. Her collaborative work extended to Harvard University, Bristol‑Myers Squibb, Cognate Therapeutics, Weill Cornell Presbyterian Medical Center, and Memorial Sloan Kettering Cancer Center, contributing to translational programs in molecular biology, nanotechnology evaluation, and therapeutic development.
Dr. Breuss has extensive experience designing and executing federal, DoD, and non‑profit research programs, including IND submissions, regulatory dossiers, Investigator Brochures, IRB/IACUC protocols, and preclinical‑to‑clinical development strategies. Her background also includes financial planning and corporate law, having served at the Center for Wealth Preservation and NYL Insurance Company from 2009 to 2012. She is the founder and president of a 501(c)(3) charitable foundation supporting children with learning and developmental disabilities.
In 2025, Dr. Breuss was named one of NBC Washington’s “Top 30 Global Women Thought Leaders & Innovators”, recognizing her contributions to quantum‑scale materials, energy‑efficient microelectronics, and the design of next‑generation technological ecosystems. She serves as Chair of multiple international scientific meetings, including global conferences in astrophysics, aerospace engineering, and advanced materials, where she leads cross‑disciplinary dialogues on frontier science and the architecture of future civilizations.
Dr. Breuss is an invited speaker at major global technology forums. She presented at the Photonic Session of the Microelectronics Summit in Austin, Texas (2026), where she introduced her framework for picoscale metasurfaces and quantum‑stabilized energy architectures. She also served as an Invited Speaker at the Microelectronics Summit in London (2026), contributing to international discussions on semiconductor resilience, photonic integration, and sovereign‑scale compute.
Dr. Breuss’s scientific vision is grounded in the belief that the next era of human technological evolution will be defined not by incremental improvements, but by deterministic control of matter, energy, and electromagnetic fields at the atomic and picoscale level. Through TENGENA, she is pioneering a unified architecture that integrates:
- quantum photonics and plasmonic field control,
- plasma‑pulse synthesis of deterministic nano‑ and picoscale materials,
- advanced coatings and metasurfaces for optical and optronic systems,
- energy‑efficient microelectronics and semiconductor‑adjacent platforms,
- aerospace‑grade materials for extreme environments,
- and sovereign‑scale compute and intelligent infrastructure.
Her work positions TENGENA as a foundational enabler of the post‑CMOS era, where materials, photonics, and field geometries become the primary design language for computation, energy routing, sensing, and aerospace systems.
Dr. Breuss is a Honored Listee of Marquis Who’s Who (2024) and a member of the Worldwide Women’s Association, recognized for her contributions at the intersection of science, engineering, and societal impact.
Igor Sokolovski, MD, PhD, Founder, PRINCIPAL ARCHITECT, New Jersey
Igor Sokolovski is the founder of TENGENA LLC, an independent research and development organization focused on advanced plasma systems, nanoscale materials engineering, high-energy electromechanical platforms, and next-generation industrial technologies.
With a multidisciplinary background spanning radiation medicine, applied materials science, high-voltage engineering, and precision mechanical systems, Sokolovski has spent decades developing integrated technologies that bridge scientific research with practical industrial implementation.
His academic and clinical background includes PhD-level specialization in radiation medicine and radiological sciences, as well as participation in post-Chernobyl investigative and radiological programs associated with the Sasakawa Health Foundation and Nagasaki University School of Medicine, where he was involved in radiation exposure analysis and advanced diagnostic methodologies.
Over time, his research expanded into plasma-assisted processing systems, gas-phase dynamics, nanoscale metallic structures, adaptive thermal architectures, and integrated high-energy systems designed for demanding operating environments.
Sokolovski’s work is centered on the integration of medical science, industrial engineering, advanced materials research, and high-voltage systems architecture into unified functional platforms intended for next-generation technological applications.
His approach combines experimental research methodology with practical engineering execution, emphasizing precision, systems stability, scalability, and long-term operational performance.
TYLER SETTLES, PHD, Senior Vice President Business Development, nORTH CAROLINA
Tyler Settles brings a rare fusion of engineering, life sciences, and financial strategy to TENGENA’s multidisciplinary architecture. His academic path spans some of the most rigorous domains in modern and classical knowledge: Digital Signal Processing at Sound Master Engineering (Pinnacle Campus), Organic Chemistry at UC Berkeley (2013–2015), Electrical & Computer Engineering at UC Davis (2020–2022), and advanced seminary studies (DD/PhD‑equivalent) through the Ecclesia Gnostica / Proclus Society / Neo‑Pythagorean Gnostic Church, carrying a Franco‑Haitian lineage through Elder Bishops Duez, Jean‑Maine, Bertiaux, and McDonald.
Tyler’s professional foundation is equally diverse. As a DSP Engineer, interdisciplinary researcher, and business development specialist, he operates at the intersection of life sciences, quantum cosmology, signal processing, and applied mathematics. His technical fluency spans digital signal chains, ECE systems, organic chemistry mechanisms, and advanced geometric frameworks — enabling him to bridge scientific, computational, and conceptual architectures with unusual precision.
In parallel with his engineering work, Tyler has built a strong track record in finance, portfolio strategy, and capital formation, consistently generating high returns, securing funding, and mitigating risk across a range of ventures. He maintains access to debt and equity financing for startups, SMEs, and multinational corporations, supporting clients across North America and international markets. His strengths in negotiation, analytical modeling, and financial structuring complement his technical capabilities, making him a uniquely versatile asset in frontier‑technology environments.
At TENGENA, Tyler contributes to the integration of DSP, ECE, life‑science modeling, and cosmological systems thinking into the company’s broader materials, plasma, and sovereign‑infrastructure roadmap. His work supports both the scientific and strategic dimensions of the platform — from signal‑driven plasma diagnostics to interdisciplinary research pathways and capital‑aligned development strategies.
Tyler’s mission is to synthesize engineering, chemistry, mathematics, and quantum physics inquiry into a coherent framework for next‑generation technological systems — advancing TENGENA’s vision of adaptive, intelligent, and resilient industrial architectures.
Larry Shvets, Vice President of Glass Engineering and Optical Integration, New York
Larry Shvets brings more than two decades of experience in advanced glass engineering, precision lamination, UV bonding, and structural glazing. As the founder of Crystal Glass & Mirror Inc., he built one of New York’s most respected custom glass fabrication operations, known for zero‑tolerance standards and the delivery of high‑load, ballistic‑grade, and architecturally complex assemblies.
At TENGENA, Larry serves as Vice President of Glass Engineering and Optical Integration, where he leads the transformation of next‑generation nanomaterials, hybrid coatings, and photonic architectures into manufacturable, device‑ready optical platforms. His work focuses on preparing ultra‑flat, low‑defect glass and quartz substrates for nanofilms, metasurfaces, plasmonic interfaces, and multilayer optical stacks, ensuring that TENGENA’s laboratory innovations can be scaled into real‑world systems.
Larry’s expertise spans the full spectrum of optical and optronic integration. He specializes in engineering surfaces for advanced deposition methods, including Dr. Blade coating and hybrid nanofilm application, and in developing optomechanical assemblies that combine structural durability with photonic precision. His background in lamination chemistry and UV‑curable bonding supports the creation of high‑stability optical structures essential for next‑generation photonic devices.
He has also pioneered the fabrication of quartz‑based components for UVC, IR, and controlled photonic environments, including the first custom quartz UVC‑saturation filters for HVAC DAC systems. These antimicrobial glass interfaces, coated with functional nanofilms, demonstrate his ability to merge architectural‑grade resilience with advanced optical functionality.
Since joining TENGENA in 2024, Larry has become a key contributor to the company’s dual‑platform architecture for advanced coatings and optomechanical integration. His leadership accelerates TENGENA’s transition from materials innovation to scalable optical and optronic systems, supporting the company’s mission to deliver transparent material platforms with quantum‑aligned performance and industrial‑grade reliability.
Yakov Opatzevfky, VICE PRESIDENT of PRECISION MANUFACTURING & SYSTEMS MACHINING, New Jersey
With more than 45 years of precision engineering experience, Yakov Opatzevfky is one of the East Coast’s most accomplished specialists in high‑tolerance machining and advanced component fabrication. A graduate of Saint Petersburg State University for Water Communications (1974–1979), where he studied marine engineering, Yakov built his career on solving fabrication challenges that conventional shops refuse to quote.
He is the founder and driving force behind United Machine Inc., a precision machining laboratory in Paterson, New Jersey, recognized for producing small‑ to mid‑scale components for military, medical, aerospace, and industrial applications. For nearly 25 years, United Machine has operated in the U.S. and abroad, delivering parts that require sub‑micron tolerances, non‑standard geometries, and extreme material resilience. The facility holds ISO 9001, AS9100D, and Premium Quality certifications, but it is Yakov’s personal mastery—his ability to machine dielectric polymers, gold‑tungsten alloys, glass‑ceramic hybrids, and exotic metals—that defines the shop’s reputation.
Since 2024, Yakov has partnered with TENGENA to co‑develop advanced assemblies for plasma‑liquid reactors, nano‑ignition systems, UVC isolation chambers, and high‑frequency flow‑control architectures. His work includes injector group bodies with sub‑millimeter channels calibrated to micropressure tolerances, each bore drilled, reamed, and polished to maintain spray dynamics under high‑frequency pulsing, cavitation, and plasma‑induced turbulence. His machining delivers the level of geometric fidelity required for quantum‑aligned plasma behavior, where even microscopic deviations can destabilize energy delivery.
Yakov leads TENGENA’s Precision Machining & Fabrication Pod (PMF‑1), the mechanical production backbone of the company’s New Jersey facility. PMF‑1 houses high‑accuracy milling, turning, and 5‑axis systems—including the Okuma GENOS M560‑V and GENOS L250II with live tooling and optional 5‑axis trunnion—providing the rigidity, repeatability, and dimensional control required to fabricate housings, electrode assemblies, confinement structures, and thermal‑electromagnetic components for deterministic plasma‑pulse devices.
Under Yakov’s leadership, PMF‑1 operates as a complete fabrication ecosystem. Shrink‑fit tooling, modular vises, and 5‑axis fixturing enable rapid changeovers and multi‑geometry machining. Tool presetters and curated cutting‑tool inventories maintain consistency across production runs. Local metrology—granite plates, micrometers, height gauges, and optional optical comparators or portable CMM arms—ensures immediate verification of tolerances, surface finishes, and alignment features critical to plasma‑pulse chamber integrity. The pod’s infrastructure, including vibration‑stable flooring, coolant and chip‑management systems, fire‑rated storage, and controlled ventilation, supports safe and compliant operation at industrial scale.
Within TENGENA’s modular architecture, PMF‑1 is the enabling unit that allows the company to fabricate plasma‑pulse devices entirely in‑house, maintaining full control over geometry, material interfaces, and mechanical tolerances. This autonomy is essential for producing defect‑free nano‑ and picomaterials, as even minor deviations in chamber geometry or electrode alignment can alter plasma behavior and compromise material uniformity. By consolidating machining, inspection, and fabrication into a single scalable pod, Yakov ensures that every plasma‑pulse device meets the precision requirements necessary for consistent sub‑nanometer and picometer‑scale material synthesis.
His leadership, craftsmanship, and engineering intuition form a critical pillar of TENGENA’s sovereign manufacturing strategy—where durability, precision, and quantum‑aligned performance converge.
Marat Golnik, VICE PRESIDENT of ADVANCED FABRICATION SYSTEMS, New York
Marat Golnik is the engineering mind behind A&L Sheet Metal Inc., a New York–based fabrication company operating for more than two decades across U.S. and international markets. With over 40 years of experience in industrial machinery, electronic equipment design, and structural metal systems, Marat has established a reputation for delivering high‑performance enclosures, acoustic frameworks, and electromechanical assemblies that meet stringent technical and environmental standards. He received his BS in Electronic Engineering from the Belorussian Polytechnic Institute in 1989.
At A&L, Marat leads the design and fabrication of custom sheet‑metal systems for military, aerospace, and advanced manufacturing sectors. His facility—certified to ISO 9001:2008 and Premium Quality standards—specializes in small‑ to medium‑scale components requiring structural rigidity, electromagnetic shielding, thermal stability, and acoustic control. His work consistently meets the tolerances and reliability thresholds demanded by high‑performance industrial and defense applications.
Since 2024, Marat has worked closely with TENGENA, precision machining division to co‑develop the structural and optomechanical enclosures that house TENGENA’s plasma‑liquid emitters, nano‑resonators, and adaptive acoustic chambers. While Yakov’s machining pod (PMF‑1) produces the high‑tolerance internal geometries, Marat’s fabrication systems deliver the external structural shells, reflective housings, thermal‑acoustic barriers, and electromagnetic enclosures that ensure mechanical stability, field containment, and environmental protection.
Together, their coordinated work forms the dual mechanical backbone of TENGENA’s manufacturing ecosystem: Yakov defines the internal precision; Marat defines the external architecture. This collaboration enables the physical realization of TENGENA’s dual‑platform design philosophy—where geometry, material interfaces, and field performance must operate as a unified system.
Marat’s contributions include multi‑layered housings for plasma‑pulse reactors, reflective shells for photonic and plasmonic emitters, micro‑bent waveguide enclosures, and adaptive acoustic chambers engineered to manage vibration, resonance, and electromagnetic interference. Every component is fabricated to his uncompromising standard, ensuring that TENGENA’s devices maintain structural integrity under high‑frequency pulsing, thermal cycling, and field‑intensive operation.
By integrating structural fabrication with precision machining, Marat enables TENGENA to maintain full control over the mechanical, thermal, and electromagnetic environment of its plasma‑pulse devices. His work ensures that each system meets the reliability and durability requirements necessary for consistent nano‑ and picomaterial synthesis, advanced sensing architectures, and next‑generation photonic platforms.
Marat’s leadership, engineering intuition, and collaborative alignment with TENGENA’s machining division form a critical pillar of sovereign manufacturing strategy—where structural resilience, precision geometry, and field‑aligned performance converge.
Russel Pollack, VICE PRESIDENT Artificial Intelligence, New Jersey
Russel Pollack brings over two decades of experience in systems logistics, database architecture, and predictive analytics to TENGENA’s sovereign infrastructure. A graduate of the University at Buffalo with a BS in Economics, Russel has led high-impact teams across enterprise software, marketing intelligence, and educational technology—building platforms that manage millions of users and hundreds of millions in revenue.
Before joining TENGENA, Russel served as Director of Business Intelligence and Database Solutions at Bronx Community College, where he architected centralized data warehouses, standardized institutional reporting, and implemented disaster recovery protocols. Prior to that, he founded and led Rupean Inc., a boutique development firm specializing in pharmaceutical learning systems and gamified training platforms.
His earlier tenure at ACMG LLC saw him directing a 40+ person team across five departments, where he developed fault-tolerant enterprise systems for e-commerce, fulfillment, and predictive modeling. Russel’s technical fluency spans SQL, .NET, PHP, Crystal Reports, and cross-platform integration, with deep expertise in automation, analytics, and scalable infrastructure.
At TENGENA, Russel leads the convergence of AI, database intelligence, and regenerative compute systems—integrating automation across plasma-enhanced fabrication, robotic microassembly, and sovereign data ecosystems. His mission is not just to optimize workflows, but to embed adaptive intelligence into the very architecture of industrial resilience.
Peter Hegedüs, METTA, Global Strategy Lead, Germany
Peter Hegedüs, Dipl.-Ing., MBE, PG Dipl., is an internationally recognized deep-tech strategist and sustainability leader with over 25 years of experience in pharma, biotech, and industrial innovation. With a strong background in tech-scouting, process development, and disruptive transformation, he specializes in green biotech, regenerative systems, and sustainable digitalization. He studied biotechnology and engineering in Germany and Switzerland and earned a Master of Business and Engineering with international programs in Germany, the USA, and Japan. Peter also holds a Postgraduate Diploma in Digital Business from MIT Sloan and Columbia Business School, graduating with distinction. As Co-Founder of METTA Green Deep Tech (3P+S Concept – People, Planet, Prosperity + Sustainability), Peter developed platforms such as 4BiogrowFood, a unique biological activator for sustainable agriculture, and a novel energy-efficient water desalination technology. Certified Six Sigma Black Belt with LEAN and BPE expertise, he combines operational excellence with disruptive innovation to deliver scalable, sustainable solutions. Peter is a two-time winner of the EU Top Disruptive Tech Award (2023, 2024), nominated for the 2025 award in Asia, and a lifetime member of the Sustainability Professionals Society of Saudi Arabia (SPSA). At Tengena, he leads global environmental strategy and innovation frameworks, fostering cross-cultural collaboration and advancing AI-driven nanotechnology and quantum solutions for a sustainable future.