Skip to main content
  1. Home
  2. Emerging Tech
  3. News

These living solar cells make energy, even in bad weather

Add as a preferred source on Google

When it comes to generating energy from sunlight, unusual solutions have been shown to make the process more efficient.

Now, a team of researchers from the University of British Columbia (UBC) has demonstrated how solar cells made of living organisms can generate energy even with limited sunlight. Known as “biogenic” solar cells, these cells could offer an alternative to synthetic cells currently used in conventional solar panels, providing an energy source despite bad weather. A paper detailing the research was published this month in the journal Small.

Recommended Videos

“This is the first study demonstrating genetically engineered biogenic materials for solar cell fabrication,” Sarvesh Kumar, a chemical and biological engineer at UBC and one of the paper’s lead authors, told Digital Trends. “We utilized a harmless bacteria and re-engineered its internal machinery to produce a photoactive pigment called lycopene.”

In the past, researchers have developed biogenic solar cells by extracting natural dyes that bacteria use to generate energy in photosynthesis. This has proven to be an expensive process, though.

In a stroke of luck, the UBC scientists identified a potentially cheaper route while genetically engineering E. coli so that it would produce lots of lycopene, the dye that gives tomatoes their color, which has been shown to be an effective light harvester. Noticing that the lycopene was degrading (releasing electrons), they wondered whether the rate of this degradation was enough to generate a usable current. They coated the lycopene-producing bacteria with a mineral semiconductor, applied them to a glass surface where they could collect sunlight, and examined what happened.

The current they generated reached a density of 0.686 milliamps per square centimeter, which was 0.324 milliamps higher than previous studies. It’s tough to tell what cost savings might result if this technology is developed at scale but the researchers estimate that dye production using their process costs about one-tenth of current methods.

Another promising aspect of the technology is that the cells worked just as well in low light as they did in bright light, meaning the method could be useful in places in the far north or south, where skies are often overcast.

“We don’t view our technology as a competitor to conventional solar cells. Rather, they are a complement,” said Vikramaditya Yadav, a chemical and biological engineer at UBC and another of the paper’s lead authors. “Still, the cells that we have developed are a ‘generation one’ device that needs significant improvements and optimization before it can reach the levels of silicon solar cells. However, even in its infancy, the technology has already thrown up some promising applications. Exploring low-light environments such as mines requires the use of sensors that could be powered with biogenic cells such as the one we have developed.”

Dyllan Furness
Former Contributor
Dyllan Furness is a freelance writer from Florida. He covers strange science and emerging tech for Digital Trends, focusing…
OpenAI’s first hardware product sounds more like a companion than a speaker
The AI company is reportedly building a mobile home device that understands context and proactively helps users.
OpenAI press image

For months, rumors have suggested that OpenAI's first hardware product could be a wearable AI device, or perhaps even the beginning of its long-term smartphone ambitions. As it turns out, the company's first gadget may be something far simpler, yet arguably far more ambitious. It will help control smart-home appliances, play media, answer questions, respond to messages, and tap into the range of capabilities offered by OpenAI's ChatGPT, according to people familiar with the matter.

OpenAI's first AI device could end up being a speaker, following plenty of hype that the company is actually working on a wearable AI device and might even launch a smartphone down the road. According to a Bloomberg report, the speaker will serve as a human-like AI companion that will integrate directly with the smart home ecosystem.

Read more
I let Gemini take care of my houseplants, and they’ve never looked better
Study guide created by Gemini

I am, by every reasonable measure, a serial plant killer. I've lost count of the pothos, the peace lilies, the one very expensive fiddle-leaf fig that judged me silently for a month before giving up entirely. My problem was never a lack of love. It was that I'd either drown them out of guilt or forget they existed for a fortnight, with no middle ground. So when I started leaning on Gemini for the odd everyday question, letting it babysit my plants wasn't some grand plan. It happened almost by accident, and now my flat looks like something a person with their life together would own.

It started the way most of my plant emergencies do, with a leaf going a color it definitely shouldn't. Instead of doom-scrolling through contradictory Google searches like I usually would, I snapped a photo, handed it to Gemini, and asked what was wrong. What I got back was a proper answer, and it was the first of many.

Read more
I underestimated this NotebookLM feature until it completely changed how I study
google-adds-data-tables-feature-in-notebooklm

I'll admit it: I ignored NotebookLM's Mind Maps feature for far longer than I should have. I mostly used the app to ask questions about my documents or generate Audio Overviews and Short Video Overviews, while that little Mind Map button sat untouched. I assumed it was more of a nice-to-have than something I'd actually use. Turns out, I was completely wrong.

I stopped drowning in my own notes

Read more