Confirmed—Chinese scientists find natural graphene on the Moon for the first time, which could change everything we thought we knew about its origin

By Rita Armenteros
September 6, 2025
Confirmed—Chinese scientists find natural graphene on the Moon for the first time, which could change everything we thought we knew about its origin

Chang’e-5 has been a key mission in learning more about the Moon. The new finding involves the detection of graphene. Global Times and South China Morning Post have reported on the discovery. Jilin University has published the entire research in National Science Review. It should be emphasized that this marks a turning point in the theory of the big impact and its relationship to Mars. Researchers are focusing on the possibility of solar wind and ancient lunar volcanic eruptions. Read on to learn about this new path in lunar geology.

New unusual discovery: Chang’e-5 analysis

Chinese scientists have made an extraordinary achievement while analyzing the sample Chang’e-5 collected from the Moon’s surface in December 2020. They found by nature occurring “few-layer graphene” for the first time, as state-run reports agency Global Times reports, which could have major intended meaning for humankind’s plans to make use of local means once on the lunar surface.

The achievent might also offer new perspective into the early geological evolution of the Moon. As the South China Morning Post reports, it may even upend a long-held idea that the Moon was created after a small planet collided with the Earth and that much of its carbon came from this impact.

“The prevalent giant impact theory has been strongly supported by the notion of [a] carbon-depleted Moon derived from the early analysis of Apollo samples,” the team led by investigators from Jilin University wrote in their paper published in the journal National Science Review, as quoted by the SCMP.

Nevertheless, the achievements suggest the existence of a “carbon-capture process on the Moon,” leading to the “gradual accumulation of indigenous carbon” — a discovery that could present the perception of chemical components… and the history of the Moon.”

“Raman spectroscopy”: name of the non-destructive chemical analysis

Using a form of non-destructive chemical analysis named “Raman spectroscopy,” the team proved the discovery of a classification of few-layer graphene, which is graphene with anywhere among two and ten layers that can also be manufactured in a lab.

The researchers proposes  the material may have formed as a outcome of solar wind battering the lunar surface and early volcanic eruptions. The presence of pure “indigenous carbon” could question the long-held hypothesis that a small planet, almost the size of Mars, collided with the Earth to form the Moon about 4.45 billion years ago.

Neverhteless, the investigators admitted that meteorites may have still led to the creation of graphitic carbon on the Moon, as previous studies have suggested.

“Further in-depth property investigation of natural graphene would provide more information on the geologic evolution of the Moon,” the team concluded.

What the NASA have said

NASA head Bill Nelson has repeatedly raised the alarm about the rapid advances in China’s space programme and the possibility of Beijing dominating the most resource-rich locations on the moon.  Using the new method, one tonne of lunar soil will be able to produce about 51-76 kg of water, equivalent to more than a hundred 500ml bottles of water, or the daily drinking water consumption of 50 people, the state broadcaster said
China hopes that recent and future lunar expeditions will set the foundations to build the International Lunar Research Station (ILRS), an initiative it is co-leading with Russia.
China’s space agency has set 2035 as the date by when a “basic station” on the moon’s south pole will be built, with a moon-orbiting space station added by 2045. The announcement of the discovery comes at a time when Chinese scientists are already conducting experiments on lunar samples brought back in June by the Chang’e-6 mission.

 

The importance of lunar water

While the Chang’e-5 mission brought back samples from the near side of the moon, Chang’e-6 retrieved lunar soil from the far side of the moon, which perpetually faces away from the Earth. The importance of lunar water goes beyond making permanent human presence viable. NASA’s Nelson told NPR in May that water found on the moon could be used to create hydrogen rocket fuel which could fuel further space exploration to Mars and other destinations.