Welcome to Bright Spark
Bright Spark is an inventor-driven technology company focused on developing innovative technical solutions.
Founded by inventor Maurice Tax and active since 2002, Bright Spark develops innovations in areas such as water treatment, disinfection, and the breakdown of persistent contaminants, including PFAS.
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OF EXPERTISE
Innovation Driven by Science
Bright Spark’s technologies are based on fundamental scientific research combined with many years of practical experience. Driven by an inventor’s mindset, we develop solutions that are not only innovative, but also reliable, scalable, and proven in real-world applications.
Our systems are deployed for applications including water treatment, disinfection, and the removal of complex and persistent contaminants. The focus lies on effectiveness, safety, and sustainability, with applications in both industrial and public environments.
Bright Spark develops technologies where chemistry, electrical engineering, and systems engineering come together. This multidisciplinary approach enables us to translate complex challenges into practical and robust solutions.
Application Areas
Bright Spark’s technologies are applied across a wide range of environments where reliability, safety, and effectiveness are essential. Our solutions are designed for complex situations in which standard technologies fall short and where control over processes and quality is critical.
- Water Treatment
Technologies for drinking water, process water, and circular water systems in industrial and public environments.
- Disinfection
Reliable disinfection solutions for situations where microbiological safety is crucial.
- Persistent Contaminants (PFAS)
Development of technologies for the breakdown and control of complex and persistent contaminants.
Our Approach
Bright Spark works from an inventor-driven approach in which fundamental research and practical applicability continuously come together.
1. Analysis
Every development process begins with an in-depth analysis of the challenge, in which chemical processes, system behavior, and operational boundary conditions are considered in an integrated manner.
2. Design
Based on this analysis, technologies are designed that are not only technically effective, but also stable, scalable, and suitable for long-term deployment under realistic conditions.
3. Implementation
The developed technologies are translated into reliable solutions for industrial and public environments, with a focus on safety, reproducibility, and practical usability.
From Innovation to Application
Innovations developed within Bright Spark are focused on real-world application in practice. Technologies are further developed and validated, after which they are translated into solutions that can be deployed within specific markets and applications.
Bright Spark acts as a technological core where new concepts are created, tested, and technically refined. From this core, technologies find their way into concrete applications, ranging from water treatment and disinfection to addressing complex environmental challenges.
Through this structured translation from innovation to practice, technologies are not only developed, but also sustainably embedded in industrial and public environments.
From Invention to Application
Bright Spark is the technological core where new concepts are created and further developed. From this core, applications and spin-offs emerge that focus on specific markets and practical use cases:
– Water treatment & disinfection → Termeca
– Breakdown of persistent contaminants → PFASDestructor
– New technologies currently under development
Knowledge Partners & Research Institutions
A selection of collaborations in research, industry, and public applications
From Research to Impact
Bright Spark connects fundamental research with concrete applications that make a real difference in practice. Through an inventor-driven approach, we develop technologies that are not only technically innovative, but also reliable, scalable, and suitable for long-term deployment.
Our solutions are implemented in industrial and public environments where safety, sustainability, and effectiveness are central. This is how impact is created that extends far beyond the laboratory.