Photovoltaic Modules

RECYCLING INDOOR LIGHT TO POWER ELECTRONIC DEVICES USING SOLAIRES’ PEROVSKITE PHOTOVOLTAIC TECHNOLOGY

SPECIFICATIONS

Tuned for indoor light absorption
Ideal for mW power consumption
Customization in size and electrical specifications

APPLICATIONS

Battery-driven indoor smart gadgets
IoT devices
Wireless energy transmission

MANUFACTURING

Designed and produced in British Columbia, Canada

PV modules are produced with the highest quality chemicals and substrates

Sourced from the most reputable suppliers

BENEFITS

Better absorption of indoor light compared to silicon and organic PV

Allows for flexible, light, thin, and translucent modules

OUR TECHNOLOGY

Photovoltaic modules for indoor IoT with superior light absorption and power energy efficiency

Emits up to 75% fewer greenhouse gas emissions than standard technologies

Saves 85 % of GHG emissions compared to disposable batteries (4 AA per year)

PVModules with up to 35% energy conversion efficiency for consumer electronic products

Potential Use Cases

WIRELESS KEYBOARDS

Solaires’ PVModules can be integrated directly into wireless keyboards, capturing ambient light from the office or home environment to power the keyboard continuously. This eliminates the need for traditional batteries, reducing electronic waste and enhancing convenience. Whether you're working late under dim lighting or in a well-lit office, the PVModules ensure your keyboard remains powered at all times, offering a seamless, eco-friendly, and low-maintenance solution for modern workspace.

Why Perovskite Technology?

Theoretically, the best absorber materials for indoor application should have a band gap between 1.8 to 2.0 eV. That’s why silicon, with a bandgap between 1.1 to 1.6 ev shows poor performance for indoor light.

Perovskite has a tunable bandgap, meaning we can adjust the bandgap to be between 1.2 to 2.6 eV by a simple solution processed component engineering. As a result we can make perovskite suitable for electric light.

EMITS UP TO 75% FEWER GHG EMISSIONS

Photovoltaic Modules

RECYCLING INDOOR LIGHT TO POWER ELECTRONIC DEVICES USING SOLAIRES’ PEROVSKITE PHOTOVOLTAIC TECHNOLOGY

SPECIFICATIONS

Tuned for indoor light absorption
Ideal for mW power consumption
Customization in size and electrical specifications

APPLICATIONS

Battery-driven indoor smart gadgets
IoT devices
Wireless energy transmission

MANUFACTURING

Designed and produced in British Columbia, Canada

PV modules are produced with the highest quality chemicals and substrates

Sourced from the most reputable suppliers

BENEFITS

Better absorption of indoor light compared to silicon and organic PV

Allows for flexible, light, thin, and translucent modules

OUR TECHNOLOGY

Photovoltaic modules for indoor IoT with superior light absorption and power energy efficiency

Emits up to 75% fewer greenhouse gas emissions than standard technologies

Saves 85 % of GHG emissions compared to disposable batteries (4 AA per year)

PVModules with up to 35% energy conversion efficiency for consumer electronic products

Potential Use Cases

WIRELESS KEYBOARDS

Solaires’ PVModules can be integrated directly into wireless keyboards, capturing ambient light from the office or home environment to power the keyboard continuously. This eliminates the need for traditional batteries, reducing electronic waste and enhancing convenience. Whether you're working late under dim lighting or in a well-lit office, the PVModules ensure your keyboard remains powered at all times, offering a seamless, eco-friendly, and low-maintenance solution for modern workspace.

Why Perovskite Technology?

Theoretically, the best absorber materials for indoor application should have a band gap between 1.8 to 2.0 eV. That’s why silicon, with a bandgap between 1.1 to 1.6 ev shows poor performance for indoor light.

Perovskite has a tunable bandgap, meaning we can adjust the bandgap to be between 1.2 to 2.6 eV by a simple solution processed component engineering. As a result we can make perovskite suitable for electric light.

EMITS UP TO 75% FEWER GHG EMISSIONS