The PSCB

Would you like a battery or a generator? Why not both?
Imagine never having to charge your shaver, never having to switch batteries in your remotes and never having to care if you forgot your plug. This is what we are aiming to bring into your hands -The first fully functional self sustaining battery. The applications are infinite, let’s make it happen.

  • Using synthetic piezoelectric crystals we can supply a basis for modular and scalable application through all dimensions of economic, ecologic and social life.

  • Offering open and closed cycle self charging properties through external “vibes” and internal MEMS+Crystal arrays - High Power variants based on safe uranium-doped ceramics and volatile isotope generators are feasible as well.

  • Combining Lihium-Ion and high-end Thin Film Storage our innovative hybrid-approach of sequential energy conservation enables safe an reliable availability of power.

  • Science & Mechanics. Combining 5 of the most advanced technologies we have available, might be difficult, but with the rise of robotic and electrical supplementation of our lives: Inevitable.

    Key Components:
    MEMS (Micro-Electro-Mechanical Systems)
    Small-scale integrated devices that can be used in piezoelectric batteries for precise mechanical stress application or as sensors to monitor battery conditions and performance.
    Synthetic Crystal Arrays
    Based on PZT (Lead Zirconate Titanate) or ZnO (Zinc Oxide) we are using proven ressources for the initial prototype, yet keeping our eyes on further developments like Relaxor-ferroelectrics and AIN(Aluminum Nitride)
    Electrolyte Interface
    Gold/Platinum Electrodes serves as a medium for ionic conduction necessary to maintain charge balance, specifically engineered to enhance the electro-mechanical response.
    Energy Harvesting Circuits
    Electronic components designed to capture, convert, store, and manage energy generated from mechanical stress in piezoelectric materials, crucial for maximizing efficiency and utility in practical applications.
    HESS(Hybrid Energy Storage System)
    Base on Lithium-Ion and Thin Film energy storage, designed to leverage the strength of each component, where the lithium-ion component provides significant energy capacity and output stability, while the thin-film component offers light-weight, flexible energy capture from ambient sources.
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What’s KCM TECH?
KCM Tech is focused on the Piezoelectric Self-Charging Battery (PSCB), blending technology, business, and art to drive innovation and transform the future of energy.

Last Supper Phones

What can it do for me?
More Efficient Structures, Tech implementation,
R&D projects—all driving innovation for a sustainable future.

THE PROCESS

Idea

  • Every great innovation begins with a spark. At KCM, we cultivate environments where creativity thrives, igniting new ideas that challenge the status quo.

  • Transforming sparks into solid concepts, we combine technical expertise with strategic foresight to design actionable plans for groundbreaking innovations.

  • No idea stands alone. Peer review ensures that our concepts are rigorously vetted, refined, and ready for the next stage of development.

Launch

  • From blueprint to reality, our construction phase leverages state-of-the-art technology and global expertise to build revolutionary prototypes.

  • We prioritize functional and scalable prototypes, balancing innovation with practicality to meet real-world demands, while focusing on cost effective demonstration.

  • Every prototype must undergo rigorous testing to ensure reliability, performance, and safety before advancing to production.

Impact

  • Facilitating smooth adoption, we work with partners to integrate our solutions seamlessly into existing systems and infrastructures.

  • Scaling innovation to its full potential, we optimize processes to expand impact and reach on a global scale.

  • With continuous feedback and improvement, our innovations adapt and evolve to meet future challenges and opportunities.