Revolutionary Diamond-Making Technique: No Extreme Pressure Needed

Revolutionary Diamond-Making Technique: No Extreme Pressure Needed




Traditionally, diamonds are known to form under intense pressure in ​the Earth’s mantle. ‌However, a groundbreaking laboratory technique now allows diamonds ​to be created without this pressure. Scientists ⁢have ⁣discovered that diamonds can be grown ⁤at normal atmospheric pressure using‍ a combination of gallium, iron, nickel, and silicon in ​a liquid ‌form, along with⁤ a gas⁢ mixture of‍ carbon-rich methane​ and hydrogen. ​This innovative method, reported in ​Nature on April 24, requires lower temperatures ⁣of⁣ 1025° C compared‍ to⁤ traditional ⁤methods. The addition of silicon plays a crucial role in initiating the ‌growth process, leading to ‌the formation of diamond crystals.
Aside from their use in jewelry, diamonds have a wide range of scientific applications, such as magnetic field detection and particle research. This new technique simplifies ⁤the production of diamond-based materials, eliminating the‌ need ⁣for expensive and ​complex equipment. Rodney Ruoff, a physical chemist at the Institute for Basic Science⁤ Center for Multidimensional Carbon Materials in ⁢Ulsan, South Korea, highlights the‌ accessibility and efficiency of this method.
Another common method ⁣for creating lab-grown⁤ diamonds is ‍chemical vapor⁢ deposition​ (CVD), which occurs⁣ at low pressures by⁣ depositing a carbon-rich ⁤gas vapor onto ‌a⁤ surface. Unlike traditional methods like⁣ CVD and HPHT, this new ‌technique does not⁤ require a diamond​ “seed” to initiate ‍growth, making it a ⁢more streamlined and cost-effective process.

2024-04-24‌ 10:08:06
Visit www.sciencenews.org ⁢ for more information.

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