A Swiss startup named Sun-Ways, based in Lausanne, has begun pilot projects to install removable solar panels between railway tracks.

The innovation is designed to utilize the vast area of railway infrastructure for energy generation without hindering train operations.

Here are the key facts:

Removable Design: The solar panels are pre-assembled and rolled out between train tracks using a specially designed railcar, making the process fast and efficient.

Non-Disruptive to Trains: The panels are placed in such a way that they do not interfere with the train wheels or signaling systems. They are low-profile and can be quickly removed for maintenance or emergencies.

Energy Potential: Switzerland has around 5,000 km of railways, and this initiative could generate significant amounts of renewable electricity, potentially supplying thousands of households.

Durability: The panels are being designed to withstand vibrations, pressure from cleaning systems, and harsh weather conditions. However, some experts have raised concerns about maintenance costs, durability under heavy rail use, and energy efficiency compared to conventional rooftop or solar farm systems.

This initiative is part of Switzerland’s broader push toward carbon neutrality and green infrastructure.

Sun-Ways has developed removable solar panels that fit between train tracks—installed by a specialized train and built to survive harsh weather and heavy vibrations.

The panels don’t disrupt rail traffic and could produce 1 TWh of clean energy annually—enough to power 2% of the country. It's an elegant solution that transforms existing infrastructure into a renewable energy network without using extra land.

Switzerland’s railways might just be the next solar superhighway.

#Switzerland #SolarEnergy #GreenInnovation #TrainTech #SunWays

Researchers at ETH Zurich, a leading science and technology university in Switzerland, have developed an innovative glow-in-the-dark wood using bioluminescent fungi.

The fungi used, such as Armillaria mellea (commonly known as honey fungus), naturally emit a greenish glow in the dark.

By integrating the fungal mycelium into the wood’s structure, scientists created a hybrid material that glows without the need for external power sources like electricity or batteries.

The project is part of a broader movement in sustainable design and living architecture, where biological systems are incorporated into buildings and public infrastructure.

The wood-fungi composite remains biodegradable and renewable, making it a highly eco-friendly alternative to traditional lighting solutions.

It offers a soft, natural light ideal for pathways, parks, or residential streets, especially in places aiming to reduce energy consumption and light pollution.

This research showcases how biodesign could shape the future of urban environments, blending nature with modern needs.

Beyond aesthetics, it also holds practical value for off-grid areas, emergency lighting, and artistic applications in urban planning.

In a devastating turn of events, a massive landslide wiped out an entire Swiss village—vanishing it from the map in seconds. The dramatic “before and after” is a haunting reminder of nature’s raw power. Residents were evacuated just days earlier after experts detected signs of instability. Thankfully, there were no reported casualties, but the destruction is complete—and irreversible.

This incident highlights the growing impact of climate-related geological shifts, as thawing permafrost and increased rainfall make mountainous regions more vulnerable to sudden collapses. Switzerland has since increased monitoring efforts across similar high-risk zones.

Watch how an entire valley was erased:


#SwitzerlandLandslide #NaturalDisaster #BeforeAndAfter #ClimateImpact #MountainCollapse

Huge landslide causes whole village to disappear in Switzerland