It's been so long since I've been here, but I'm back! I don't know how long, but I've been asked a lot to upload this art not only to tiktok 🐡
doodle
common spiny flower mantis, as an apology for the hiatus🌷
@freezingfaerie 's archive
[ 🤍🐇💜 ]
https://www.almanac.com/gardening/planting-calendar
🌱🌱it’s super easy to use, broken down vegetable by vegetable. Even in late winter and very early spring you can start many seeds indoors, or even outdoors, depending on where you live and what you’re planting. 🌱🌱
☀️☀️☀️☀️☀️☀️☀️☀️☀️☀️☀️☀️☀️☀️☀️
The trees keep growing faster every day.
Beetle finds and appreciates bug lovers online
Researchers have developed a low-cost device that can selectively capture carbon dioxide gas while it charges. Then, when it discharges, the CO2 can be released in a controlled way and collected to be reused or disposed of responsibly.
The supercapacitor device, which is similar to a rechargeable battery, is about the size of a quarter, and is made in part from sustainable materials including coconut shells and seawater.
Designed by scientists from the University of Cambridge, the supercapacitor could help power carbon capture and storage technologies at a much cheaper cost. Every year, around 35 billion tonnes of CO2 are released into the atmosphere, and solutions are urgently needed to eliminate these emissions and address the climate crisis. The most advanced current carbon capture technologies are quite expensive and require large amounts of energy.
The supercapacitor consists of two electrodes of positive and negative charge. In work led by Trevor Binford while completing his Master’s degree at Cambridge, the team tried alternating from a negative to a positive voltage to extend the charging time from previous experiments. This improved the supercapacitor’s ability to capture carbon.
Read more.