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Technology

Regenix Energy > Technology

Our Mission

Advancing Renewable Energy Innovation

Technology

At Regenix, we’ve redefined the possibilities of solar energy by combining advanced materials, nature-inspired designs, and state-of-the-art manufacturing processes. Our technology enables flexible, printable photovoltaic (PV) cells that power IoT devices, wearables, and industrial systems with unmatched efficiency and sustainability.

Why Perovskite Technology? Our innovation lies in harnessing the incredible potential of perovskite—a material known for its superior light absorption and energy conversion. Unlike conventional silicon cells, perovskites can be printed onto flexible surfaces at room temperature, making manufacturing both cost-effective and sustainable.

Addressing Key Challenges: Stability and Scalability
A common issue with perovskite solar cells has always been stability. At Regenix, we’ve developed an eco-friendly alginate-xanthan biofilm coating derived from overabundant seaweed resources. This natural encapsulation provides resistance to moisture, UV exposure, and environmental degradation, extending the lifespan of our solar cells

Here’s how our groundbreaking technology works,

a) Schematic illustration of the device structure of perovskite solar cell, b) molecular structural formula of the conjugated polymers, and c) spin‐coating process for fabricating perovskite films with antisolvent process.

Alginate-Xanthan Biofilm Coating

Our patented biofilm technology provides a durable, eco-friendly encapsulation layer that protects the perovskite active layer from environmental stressors like moisture and UV radiation.

  • Seaweed-Derived Materials: Our biofilm leverages alginate and xanthan gum, natural polymers extracted from abundant seaweed resources, ensuring sustainability.
  • UV and Moisture Resistance: Shields perovskite materials from degradation, extending the lifespan of the PV cells.
  • Flexible and Lightweight: Maintains the flexibility needed for wearable technology and irregular surfaces.

Biomimicry-Inspired Micropatterning

Drawing inspiration from nature, we’ve integrated patterns that mimic the light-scattering properties of butterfly wings and the photon-trapping structures of leaf veins.

  • Enhanced Light Absorption: These designs increase photon capture, boosting energy conversion efficiency by up to 30%.
  • Low-Light Optimization: Maximizes performance under indoor lighting conditions, making our products ideal for IoT applications.
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High-Efficiency Perovskite Active Layer

Our PV cells utilize state-of-the-art perovskite materials to achieve high energy conversion rates with minimal material usage.

  • Customizable Bandgap: Tunable to optimize energy harvesting from specific light sources, such as indoor lighting.
  • Quantum Dot Integration: Enhances flexibility and allows for precise customization of light absorption properties.

Flexible and Transparent Substrates

The foundation of our solar cells consists of flexible materials that balance durability and adaptability.

  • Materials: PET (polyethylene terephthalate) and PDMS (polydimethylsiloxane) substrates ensure lightweight and bendable properties.
  • Electrodes: Transparent conductive layers, such as graphene and silver nanowires, replace traditional indium tin oxide (ITO), providing better flexibility and conductivity.

AI-Driven Roll-to-Roll Manufacturing

Our production process integrates advanced AI systems to ensure scalability, precision, and cost-effectiveness.

  • Real-Time Defect Detection: LiDAR-based imaging systems identify and correct imperfections during manufacturing, reducing waste and ensuring consistent quality.
  • High-Speed Production: Roll-to-roll printing enables large-scale manufacturing of PV cells for industrial and consumer applications.
  • Customizable Design: The printing process accommodates various shapes and sizes, offering unparalleled flexibility for diverse use cases.

Sustainability by Design

Regenix’s technology is built on principles of sustainability, from material sourcing to production and end-of-life disposal.

  • Eco-Friendly Materials: By utilizing seaweed-based biofilms, we reduce reliance on synthetic materials and promote a circular economy.
  • Battery Waste Reduction: Our PV cells provide a renewable alternative to disposable batteries, minimizing environmental impact.
  • Energy Efficient Production: AI-driven processes and material innovations lower the carbon footprint of our manufacturing.

We’re committed to ongoing innovation to further advance solar energy technology

Future Innovations

Our flagship products—VoltoX and VoltoZ—are not just another pair of solar panels.
VoltoX provides high-efficiency, large-scale panels optimized for industrial use,
while VoltoZ powers IoT devices with compact, low-light-optimized solar cells
Self-Healing Materials

Self-Healing Materials

Researching coatings that can repair minor damages to extend product lifespan.
Enhanced Light Manipulation

Enhanced Light Manipulation

Developing advanced biomimetic patterns for even greater energy efficiency.
Energy Storage Integration

Energy Storage Integration

Exploring solutions to seamlessly pair our PV cells with next-generation battery systems.