Scientists have identified 4-billion-year-old nitrogen-containing organic molecules in a Martian meteorite, a discovery that may shed light on whether or not the Red Planet once hosted life.

Scientists discover new organic compounds that could have helped form the first cells. ScienceDaily. Retrieved June 2, 2025 from www.sciencedaily.com / releases / 2020 / 10 / 201028082954.htm.

Once thought unlikely, this new finding in coordination chemistry could lead to promising advances in catalysis and materials ...

For more than a century, the well-known 18-electron rule has guided the field of organometallic chemistry. Now, researchers at Okinawa Institute of Science and Technology (OIST), in collaboration with ...

The study also raises hopes that large organic molecules, including potential biosignatures—compounds that can only be formed by living organisms—could have been preserved on Mars despite the ...

Most organic compounds contain carbon and hydrogen, but they may also include any number of other elements (e.g., nitrogen, oxygen, halogens, phosphorus, silicon, sulfur). Originally limited to the ...

Researchers from Hong Kong report that organic compounds of unexpected complexity exist throughout the Universe. They indicate that an organic substance commonly found throughout the Universe ...

What does organic compound actually mean? Find out inside PCMag's comprehensive tech and computer-related encyclopedia.

NASA scientists working with the Curiosity rover say they've found hints of remnants of organic compounds on Mars, dating back to when the planet was probably a whole lot more hospitable ...

Organic compounds have been found in the plumes rising from the subsurface ocean on Enceladus, adding to the evidence that one of Saturn’s most intriguing moons should be explored further.

NASA’s OSIRIS-REx spacecraft, which launched in 2016, scooped up bits of dust, soil and rocks from the asteroid Bennu and then brought them to Earth in 2023. The 4.5-billion-year-old asteroid is ...

A recent discovery of organic compounds in billion-year-old ancient rocks in Australia helps illuminate the early history of eukaryotes, according to a new study.