cryptocurrency

Pure Diamond Farm Singapore to Create Affordable Lab-Grown Diamonds on the Blockchain


Diamonds are a girl’s best friend is a popular saying that has become a well-known anthem for steadfast relationships. Yet, even though people put trust into a diamond they are buying, how can we be sure that it has been ethically sourced and is genuine? Not only that but is there a cheaper alternative available?

In 2017, worldwide natural diamond production produced an estimated 148 million carats, a seven percent increase from 2016. With industry leader De Beers raking in $5.3 billion worth of diamonds last year, the industry remains a lucrative market.

Unfortunately, for many who have purchased a diamond for a special occasion, guaranteeing the quality of it has become an issue. After all, who’s to say whether a diamond has been sourced from a conflict zone where gems are being used to finance violence?

In order to solve this issue, and to deliver an affordable solution, a Singapore-based company is teaming up with a Japanese lab-grown diamond business. Using the blockchain they are verifying the authenticity of diamonds to clear the supply chain of impostors.

According to Pure Diamond Farm Singapore, in the synthetic diamond market, industrial use had a global market size of $16.2 billion in 2016. This is expected to rise to $27.6 billion by 2022. With De Beers and Swarovski already announcing the launch of their own synthetic diamond brands, the industry will only continue to grow as affordable substitutes come on the market.

Realising the potential this will have, Pure Diamond Farm Singapore has teamed up with Pure Diamond Lab Co. Ltd., a production, research, and development company in Japan. For the first time, lab-grown diamonds will be produced in Japan, which could produce a significant impact on the diamond market.

In its white paper, Pure Diamond Farm Singapore stated: “We have succeeded in producing a lab-grown diamond that exhibits the same chemical, physical, and optical properties as those of a naturally mined diamond.”

  Chemical Formula Thermal
Conductivity
 Crystal
Structure
 Mohs
Hardness
 Density
[g/㎠]
 Refractive
Index
 Optical
Dispersion
Natural diamond C high cubic 10 3.51 2.42 0.044
Lab-Grown Diamond C high cubic 10 3.51 2.42 0.044
Cubic zirconia ZrO2 low cubic 8.25 5.50-6.00 2.16 0.060
Moissanite SiC high hexagonal 9.25 3.21 2.65-2.69 0.104 

An announcement from the Singapore company stated that the Japanese firm will be using the blockchain technology to store and trace the data of each lab-grown diamond such as its origin, certificate, date, and time of creation.

To kick-start the Japanese business, Pure Diamond Farm Singapore will be launching its own initial coin offering (ICO) by the end of the year.

“Pure Diamond Farm Singapore will introduce its cryptocurrency, Pure Diamond Coin, that is associated with its lab-grown diamond,” said Chris Yang, president of Pure Diamond Farm Singapore. “The token connects lab-grown diamond by the blockchain and is distributed by the token. It is supported by the physical lab-grown diamond, hence unless the value of the diamond declines, the token value does not depreciate.”

Yang added that the Singapore-based company is aiming to use the Pure Diamond Coin in the real world to conduct transactions in the supply chain.

“This means Pure Diamond Coin can be distributed in the diamond market and be utilised to purchase everyday products,” he said.

The team at both companies are hoping that by combining the lab-grown diamond technology and the blockchain, new opportunities and possibilities will be brought to the market.

Pure Diamond Farm Singapore will conduct its presale for its ICO from the 1st – 25th September 2018. This will be followed by Phase 1 from the 5th – 20th October 2018 and Phase 2 from 1st – 15th November 2018.

Find out more about the ICO and read the whitepaper here

 



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