Merlin Diamonds Limited reported that it has raised approximately $ 5.5 million as part of proposals for the placement of shares to existing shareholders of the company in January.
Funds received under this proposal will provide the company that owns the diamond mine Merlin (Merlin) in the north of Australia, the necessary financial flexibility to achieve its operational and corporate objectives.
Proposal to grant the rights to purchase shares granted to the shareholders the opportunity to subscribe for 1 new security company with an option to purchase the new shares for every four shares owned on the record date. The price of the new shares with an option to buy at 1.3 cents, and the option exercise price will be 1.3 cents.
Proposal to grant the rights were fully sold and signed by Triple C Consulting Pty Ltd, with the Triple C has also managed to obtain additional shares in the amount of 267 903 139 units, involving an additional $ 3.4 million.
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In the new study, scientists from the University of North Carolina created a new modification of solid carbon, which could be obtained by using a high power laser. Previously, scientists assumed that the firm create a third form of carbon is not possible. Meanwhile, two known solid carbon species - is graphite and diamond.
The new modification is called Q-carbon. It has some unusual properties: Unlike other types of solid carbon it has ferromagnetic properties and also it harder diamond and able to glow under low-energy radiation.
For the manufacture of Q-carbon researchers coated substrate of sapphire glass or plastic polymer amorphous form of carbon. Then carbon directed short laser pulses of approximately 200 nanoseconds, during which impact the material temperature rose above 3700 degrees Celsius. The material was quenched.
Using different substrates, by adjusting the laser pulse duration and varying the cooling rate command learned to convert Q-carbon in diamond structure.
"We can create a diamond nano-and micro-needle, nanodots or a large area of the film that can be used to deliver drugs in a variety of manufacturing processes and to create high-temperature switches and power electronics - believes Professor Dzhey Narayan (Jay Narayan), who heads the research group . - These crystals have a monocrystalline structure, and because they are more durable than their counterparts polycrystalline important feature of the new technology is that the production of crystals occurs at rooms. Second temperature and normal atmospheric pressure - we just use the lasers that are used today in operations for the correction of vision. "
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