Insulation provided by carbon dioxide ice above the martian polar caps could explain many of the Red Planet’s ancient river features.

Using a computer model that reveals how plants grow thicker over time, biologists have uncovered how cells are activated to produce wood tissue. Understanding the genetic and molecular signals behind ...

New research suggests that about 3.6 billion years ago, Mars featured vast water flows and a lake rivaling the size of the ...

Chemistry plays a crucial role in reaching the goal of net zero, particularly in technologies and sectors such as renewable ...

A peaceful walk with her dog led to Sandra Issa acquiring a tick bite — and, ultimately, to her having to stay away from red ...

Imagine a robot that can detect scents in the air and track down their sources as efficiently as a dog or a mouse. If ...

By 3.6 billion years ago, Mars should have become too cold for liquid water, but something kept the rivers flowing.

While systems that can generate energy from renewable sources are becoming increasingly widespread, it might take a while ...

Now, new technology by Climeworks could help reduce carbon dioxide levels with the "Mammoth," a direct air capture system. At first glance, the Mammoth looks like something out of a sci-fi movie, but ...

For the first time, researchers have observed how bromoform rearranges its atoms in less than a trillionth of a second after ...

Chemists have synthesized a highly complex natural molecule through a new strategy of functionalizing normally inert ...