Lab-grown diamonds are chemically, optically, and physically identical to naturally occurring diamonds and the hardest of all gemstones. We love using lab-created diamonds in engagement rings and tennis bracelets or other jewellery that sees heavy use since they retain their brilliance, fire and scintillation better than other gemstones. Colored gemstones, such as rubies, sapphires, and emeralds, aren’t as hard as diamonds, which are a 10 on the Mohs hardness scale. Diamonds can be worn for a lifetime and maintain their brilliance throughout. If you’re looking for a lasting gemstone choice for yourself or a loved one, created diamonds are one of your best options.
Lab grown diamonds provide another choice for you when purchasing an engagement ring or diamond jewelry. It's not about what is right or wrong, it's about finding the price point, size or qualities you are looking for!
We hold all of our created diamonds to the same standards as our mined diamonds, though you may find that the price comparison differs between the two. Labs have refined their processes to create higher-quality diamonds while keeping prices lower than natural diamonds. You can also find created colored diamonds in hues of yellow, blue, and pink in addition to clear.
Using lab-grown diamonds in engagement rings is a very popular recent trend for a variety of reasons. The cost and increased options at affordable prices makes them a perfect option if you’re looking to tie the knot or find the perfect gift. The hardness of a diamond cannot be matched by moissanite, cubic zirconia, or any other diamond substitutes!
1000s of acres of soil is moved while mining diamonds
No soil movement
High air pollution
Negligible air pollution
Gallons of water used
Water usage is lower by a factor of 7
High risk work environment
High employee safety standards
1SELECT DIAMOND SEED
Choose the best quality diamond seed. The diamond seed is placed on a metal disk.
2GROW THE DIAMOND
The diamond seed is placed into a specialized chamber. The diamond seed starts to grow.
3CUT THE DIAMOND
After 10-12 weeks, a diamond is created. The diamond is then roughly cut using a laser.
4POLISH THE DIAMOND
Diamonds are faceted into desired shapes by skilled diamond cutters using the same tools and techniques that are used for mined diamonds.
Commonly Asked Questions
We get a lot of questions about created diamonds. Here are answers to the most commonly asked questions:
Yes! Lab-grown gemstones are chemically identical to naturally occurring diamonds. They are graded the same way that natural diamonds are graded, using the 4 C’s (color, cut, clarity, and carat). Gemological labs with high-powered equipment and specially trained gemologists can tell you if you have a created diamond or a naturally occurring one, but to the naked eye and even under standard microscopes, it is nearly impossible to tell the difference.
There are two main processes for producing diamonds in a lab. Both are quite technical procedures that require a few weeks to produce results. High Pressure, High Temperature (HPHT) mimics the way diamonds are formed naturally in the earth but speeds up the process exponentially. Chemical Vapor Deposition (CVD) creates these precious diamonds by using a chemical reaction to break carbon molecules apart and reform them into diamonds.
Lab-grown diamonds can go by many different names: engineered diamonds, created diamonds, cultured diamonds, and man-made diamonds all refer to the same process of creating a diamond without mining processes. However, if you see the terms “artificial” or “synthetic” when referring to a gemstone, it might not be a diamond at all. Cubic Zirconia, or CZ, are man-made diamond look-alikes that do not have the same chemical structure as a diamond. Always ask your jeweller for specifics when purchasing fine jewelry to ensure you understand the type of product you’re looking at!
Shop Online or In-Store
Whether you prefer to browse online or visit us in-person at our Ripon-area showroom, Diedrich Jewelers will help you choose a diamond you'll cherish forever.