News News

Customer service number：64321087
Commercial service telephone：13918059423
Technical service telephone：13918059423
Contact person: Mr. Cui
Service email：shxtb@163.com
Address: room 107, building 8, no. 100, guilin road, xuhui district, Shanghai

Where are you now： Home page → News → Comprehensive

New research aids rare earths exploration

The date of： 2021-12-10

viewed: 35

source：Mining Magazine

Natural-resources08 December 2021CommentsShare

Jax Jacobsen

New research from the University of St Andrews will help rare earth explorers identify where rare earth metals are located.

The study was launched to determine why some volcanoes are excellent sources of rare earth metals, while others are not.

Scientists determined that fluids that leak from the magma body to then be embedded into surrounding rocks can bring substantial quantities of rare earths metals. The fluids scatter the metals, making it hard for miners to identify an economically viable deposit.

'This is the first time that the mass of material transported by this process was estimated,' lead researcher Krzysztof Sokół said. 'We also present a new way to visualise the distribution of metals in the surrounding rock.'

The new study demonstrates that during volcanic eruptions, the melts at the shallow level of the Earth's crust 'can form a separate hot fluid enriched in critical metals,' which then leaks into surrounding rocks, Phys.org reported.

Researchers said the total amount of rare earth metals carried by this process is approximately 40 megatonnes, similar to amounts at the world's largest rare earth deposits.

The study has improved scientists' knowledge of how rare earths metals deposits are formed on volcanoes.

'Armed with this information, we can guide far better exploration for the next generation of green technologies,' St Andrews' Adrian

In the previous：GM Will Source, Produce Rare Earth EV-MoThe next article：New tools to unearth rare metals

Hot News / Related to recommend

New lanthanide coordination polymers (Ln-CPs) from 2-hydroxyterephthalate: Excited-state intramolecular proton transfer (ESIPT)

2026 - 05 - 06

Click on the number of times: 2

New lanthanide coordination polymers (Ln-CPs) from 2-hydroxyterephthalate: Excited-state intramolecular proton transfer (ESIPT) and sensing capabilities来源：X-MOLEleven new coordination polymers (Ln-CPs...

Grain Boundary Plane Distribution and Texture Evolution Mechanism of Nanocrystalline Nd–Fe–B Magnets under Two Preparation Techniques

2026 - 04 - 30

Click on the number of times: 2

来源：ACS PublicationsUnderstanding the influence of processing routes on grain boundary structure and crystallographic texture is essential for optimizing the magnetic performance of nanocrystalline Nd–...

Pressure-Driven Magnetic Phase Transition in the Rare-Earth Intermetallic Compound NdCuSb2

2026 - 04 - 30

Click on the number of times: 3

来源：ACS PublicationsThe rare-earth intermetallic compound NdCuSb2 possesses an antiferromagnetic (AFM) order below TN = 3.78 K, with magnetic moments aligned along the b axis. Here, we systematically i...

On-Demand Switching of a pHROS-Responsive Ce Single-Atom Nanozyme Spray for Infected Wounds

2026 - 04 - 29

Click on the number of times: 4

来源：ACS PublicationsThe healing of infected wounds is often hampered by a dynamically evolving pathological microenvironment. Conventional static therapeutic approaches lack the adaptability to address...