The American Gem Society (AGS) will present panel discussions on lab grown diamond pricing and supply, advances in lab grown identification and the art of natural diamond storytelling.
The three-hour Confluence is an online-only event, featuring three pre-recorded sessions, designed to allow the speakers to take part in a live chat Q&A.
The event is scheduled for 25 September and will be accessible to non-AGS members for a $150 fee. The sessions will remain available, on demand, until 31 December.
The Importance of Diamond Screening: Challenges, Techniques, and Resources covers the latest screening technologies and their limitations, providing guidance on using gemological instruments for verification.
Laboratory-Grown Diamonds: Pricing, Supply, and Disclosure explores the complexities of the lab grown diamond market, including pricing dynamics and the importance of transparency.
And The Incredible Story of Natural Diamonds delves into the geological history and mining processes of natural diamonds, featuring insights from experts at GIA , which is sponsoring the event.
AGS is a nonprofit trade association representing a select group of jewelers, independent appraisers, and suppliers in the jewelry industry.
As Guy Borenstein gears up for Stuller’s Bench Jeweler Workshop in March, there’s one hot topic that will be addressed for the fifth consecutive year: synthetic diamonds.
There’s no shortage of available equipment to detect lab-grown diamonds. According to the Natural Diamond Council (NDC), there are about 40 instruments on the market that aim to discover natural versus synthetic diamonds.
“Five years ago, I asked attendees how many were screening for lab-grown diamonds [LGDs] and one hand went up,” says the director of gemstone procurement for the Lafayette, Louisiana-based manufacturer. That number has grown as the years passed, but “the majority are still not checking,” he adds.
Considering the recent number of undisclosed synthetics sent to labs, retailers should be more vigilant. In the last two months, four labs — comprising one in Italy and three, including the Gemological Institute of America (GIA), with US outposts — have reported incidents of synthetic diamonds submitted for grading under the guise of being natural. The labs, with their multitude of testing instruments and scientific savvy, have the manpower and resources to uncover the truth, but what about retailers, small manufacturers, and dealers? Other than sending every diamond purchased either over the counter or from a jewelry maker to a lab, what can the rest of industry do to guard against unknowing purchases of synthetic diamonds? Screen, baby, screen.
Marc Altman of B&E Jewelers in Southampton, Pennsylvania., started selling synthetics only last year, but has encountered them in newly manufactured goods sold to him as natural and in the engagement rings of unknowing clients. In the case of the new jewelry, he suspects it was an honest error.
“It was one ring,” he says. “It was a big order, and my assumption was that they also made jewelry with LGDs.”
Thanks to his GIA ID100 screening tool, he was able to spot-check trays of new finished jewelry. In the case of individual client rings, he’ll use a polariscope and the ID100 to determine if a diamond is natural or synthetic. In the last three weeks, he’s taken in two rings for resizing that were set with lab-grown and not the natural diamonds that clients thought they had. These examples are why screening goods on intake is critical and reveals deficiencies in disclosure by others at the time of sale. These are lawsuits in the making.
“If I didn’t [screen], my reputation would be at risk,” he says.
Fraud or flub?
Recent high-profile lab incidents aside — like the 6-carat synthetic laser-inscribed as a natural the International Gemological Institute (IGI) examined, or the pink, yellow and brown lab-grown diamonds posing as natural that Gem Science Laboratory (GSI) received — not every facility sees the spike in undisclosed synthetics as deliberate by fraudsters.
As a percentage of all diamonds examined, the number submitted as natural that turn out to be lab-grown is miniscule, says IGI CEO Tehmasp Printer.
“Ten years ago, 95% of parcels were contaminated,” he continues. “Today that number is reduced to half a percent. Initially, some did try to push LGDs as naturals and then labs learned how to ID the material. Now, there are mistakes and errors, but most are not intentional. No manufacturers are polishing LGDs and naturals in the same space; it’s done separately. The problems occur when parcels are given out for memo, and then there is a little switch here and there by mistake.”
Other incidents aren’t as clear. A recent GSI discovery involved mounted brown diamonds with linear graining and polished surfaces “to try to pass it as natural,” maintains Debbie Azar, cofounder and president of GSI. “While initial gemological observations would suggest they were likely natural, our advanced testing processes revealed they were CVD [chemical vapor deposition lab-grown diamonds] almost immediately by looking at their optical defects.”
No matter the intention behind the incidents, GIA takes each one — and steps to avoid them — seriously. For example, nearly every synthetic diamond that comes in for a report is inscribed as such. It also recently unveiled a same-day service for report confirmation of GIA-graded diamonds with or without markings. The service is offered to combat fraudulent inscriptions and for now is free.
“We should all be doing everything possible to ensure consumer trust,” says Pritesh Patel, GIA senior vice president and chief operating officer. Patel is responsible for lab operations. “One is not more vulnerable than another in the trade; everybody should be vigilant,” he cautions.
Identification struggles
One of the toughest tasks in effectively screening jewelry today is the large quantity of small stones. The labs can handle it, but it’s tedious.
“Our biggest challenge is testing items encrusted with micro-pavé — jewelry set with 0.005-carat and smaller diamonds,” says Angelo Palmieri, president of GCAL by Sarine. “The challenge predominantly revolves around exercising patience.”
Then there are the hidden halos of diamonds; only visible diamonds can be easily checked on finished jewelry, so the trade must remember to flip pieces on their sides for inspection.
“We see as many naturals in LGD-set jewelry as we see LGDs in natural diamond jewelry,” adds Palmieri. “We see this happen with everybody, from high-end brands to sightholders. We’re not seeing 50% wrong — we see cases where one is natural or LGD. It doesn’t look intentional; it looks like it’s hard to keep track of the melee.”
Azar, too, is familiar with this wearisome process.
“Pieces with smaller diamonds and melee can be extremely time-consuming and the work is intricate,” she says. “We screen thousands of diamonds each day and we are detecting undisclosed laboratory-grown diamonds every day. They are usually in mounted goods where the mounting obscures full observation of the diamond.”
The solution? Enhanced quality controls such as constant and repeated testing when diamonds are loose and once they’re set. “Most companies don’t want to put in the hard work (and patience) that comes with thorough and complete testing,” observes Palmieri.
Tools and techniques
Like Altman, other retailers can use a microscope, polariscope and GIA’s ID100 in store — they’re compact and not too cost prohibitive.
Labs have myriad methods, including custom machines and proprietary research, to uncover the truth. There are also common methods used by all labs, like “Raman and photoluminescence spectroscopy” and “basic gemological testing,” among others, notes Palmieri.
GIA even has a facility in New Jersey devoted solely to the study of lab-grown diamonds to stay ahead of their developments. “GIA spends a tremendous amount on research,” notes Patel.
Lab consensus is that one instrument isn’t enough. Multiple tools and experienced operators are necessary to reveal undisclosed synthetics.
“Each instrument has its own advantages and limitations,” says Palmieri. “No one machine can give you all the answers.”
Azar urges the trade to adopt a deductive process for distinguishing between naturals and synthetics. For example, does it have garnet crystals? Then it is “definitively natural,” she says. But if a diamond has no inclusions or is type IIa, send it to a lab for testing. For mounted goods, “all bets are off because of the complexities,” she adds.
Dror Yehuda, president of Yehuda Diamond Company — formerly a maker of clarity-enhanced diamonds — shifted to manufacturing diamond detectors around 2015. That’s the year, he maintains, that lab-grown diamonds came to market with gusto. “The vast majority of my customers stopped carrying my Yehuda diamonds and moved to LGDs,” he reveals.
As a result, Yehuda built the first Sherlock Holmes detector, which is in its fourth generation. Three models now exist to accommodate a variety of needs and budgets.
To date, he has sold over 15,000 detectors worldwide.
“The second generation was tested by project Assure and was the only detector other than [De Beers’] SynthDetect that detected 100% of the LGDs,” says Yehuda.
The Assure Directory from the NDC is a resource for anyone trying to determine what instruments to purchase. Assure provides results of independent testing of a “wide range of diamond-verification instruments,” according to Samantha Sibley, technical educator at De Beers Group Ignite in the UK, which spearheads De Beers’ corporate approach to innovation.
Assure tests instruments for “diamond accuracy, referral rates, speed, and natural false positive rates [i.e., does the instrument pass any synthetic diamonds as natural?],” she continues. “The latter is the most crucial measure, and all De Beers verification instruments have a 0% false positive rate from both Assure 1.0 [2019] and Assure 2.0 [2022].”
Model behavior
Manufacturing house Stuller takes extreme precautions to safeguard against undisclosed synthetics. The firm has 62 pieces of screening equipment and 40 associates to run them. It even has an in-house GIA lab for melee analysis (Stuller staffers aren’t even allowed inside).
Starting at a quarter of a point, Stuller tests every diamond individually, screening more than 5 million units a year. Each stone is tested by at least two different technologies so one “can compensate for the weakness of another,” adds Borenstein. “In a year, 50,000 units out of 5 million go to the lab for further tests.”
The onus is on Stuller to test because of Federal Trade Commission (FTC) regulations.
“Every player throughout the supply chain should test,” he urges. “We are still catching undisclosed stones on a daily basis, so just imagine how many of those are filtering into the market in an area with no screening at all.”
Jay Seiler of Jay Seiler Jewelers in Duluth, Minnesota, is a risk taker. He has a Presidium tester to weed out cubic zirconia and moissanite when he buys gold, but no other equipment in-house to test diamonds. Why? He’s a private jeweler now after years of operating a big store. His clients are largely older, known to him, bought diamonds before the advent of lab-grown, and 90% of his work is custom. Still, what about the new diamonds he buys? Therein lies the risk.
By the time someone faces an undisclosed synthetic, however, it’s likely too late. “You won’t be able to defend yourself in court,” says Borenstein.
“Disclosure is not as explicit as it should be, and that will be a huge challenge for retailers in a few years,” says Palmieri.
The American Gem Society (AGS) will close its laboratory operations at the end of this year, with the Gemological Institute of America (GIA) taking on elements of the organization.
AGS Laboratories’ intellectual property (IP), technology, research staff and Las Vegas facility will become part of the GIA, the two organizations announced Wednesday. AGS Laboratories will continue to provide services until the end of 2022 and will contact clients with details of the transition, it said.
The nonprofits, both founded by Robert M. and Beatrice Shipley in the 1930s, will combine their gemological research efforts. The amalgamated team will “develop innovative products” to help consumers and the trade, encompassing light-performance research and a “science-based” fancy-cut grade standard, they said.
“This consequential agreement brings AGS and GIA even closer, driving our future with 90 years of shared history and elevating our founders’ vision,” commented AGS CEO Katherine Bodoh in a joint statement.
The GIA will create an endowment to support AGS and its membership. They did not provide further financial details. The collaboration will also help advance AGS’s retailer programs and support more member education, for example at the annual AGS Conclave, the statement continued.
The AGS Ideal grading report will be available from GIA as a digital-only supplement to GIA reports for eligible D to Z natural and laboratory-grown round and fancy-shape diamonds, incurring an additional cost of $25. GIA clients will be able to request these extra reports from January 2023.
In an information sheet for customers, AGS noted that GIA was responsible for inventing the 4Cs of diamond grading while AGS “created light performance and ignited a discussion on sparkle.” For instance, the AGS is one of the few major labs to offer a cut grade for fancy-shape diamonds.
“By harnessing each other’s strengths to move forward boldly, consumers will be better protected, and we will ensure the longevity of the Shipleys’ vision,” said GIA president and CEO Susan Jacques.
Correction, October 20, 2022: An earlier headline incorrectly stated that the GIA was taking over AGS’s grading division. In fact, the AGS Laboratories grading operations will close, with the GIA taking over certain other elements of the organization, including research.
Industry leaders in India have published draft rules aimed at stopping members from selling diamonds with false grading reports.
The new Diamond Charter calls for tight measures to prevent the misuse of certificates. It also requires companies to take action to stem the circulation of grading reports that are not attached to a stone.
The document, which the Gem & Jewellery Export Promotion Council (GJEPC) posted on its website last week, mandates ethical conduct and grants powers to punish those who misbehave. It is currently at the consultation stage, and could go into effect next month, GJEPC executive director Sabyasachi Ray told Rapaport News Monday.
The draft calls for participation by the Bharat Diamond Bourse (BDB), the Surat Diamond Bourse (SDB) and the Mumbai Diamond Merchants’ Association (MDMA), as well as the Gemological Institute of America (GIA), the International Gemological Institute (IGI), HRD Antwerp, Gemological Science International (GSI) and the Gemmological Institute of India (GII). Those organizations will also set up a committee to enforce the rules among members, it says.
The move follows increased demand for grading and a string of fraud cases involving natural stones carrying reports pertaining to lower-quality or synthetic goods.
“[Since] lab-grown diamonds came into the market, above [0.30 carats], no natural diamond is sold without a certification,” Ray explained. “This [underpins] the value of the diamond.”
The rules require grading institutions to give each diamond a unique identification number and a corresponding laser inscription when they receive it for certification, and to keep an accessible online archive of reports. They also compel labs to offer free verification services at major trading centers and maintain records of know-your-customer (KYC) documents.
Meanwhile, bourses must remind their members that trading of a certificate without the sale of a diamond is illegal, according to the charter.
The guidelines also govern what happens if a seller has multiple grading reports from different labs for the same stone and only wishes to give the buyer one of them. In this case, the seller should return the remaining certificates to the lab or destroy them within 30 days so misuse of the document is impossible, the charter continues.
It also calls on diamond buyers to verify the certificate’s authenticity using the relevant lab’s online database.
The boards of the BDB and the GJEPC have approved the charter, with members of exchanges and the general public now able to comment on the draft before November 16, Ray said. Depending on feedback, implementation could happen by December 1, he added.
“Our understanding is that the charter is in draft; we look forward to learning more about it,” a GIA spokesperson said. “For many years, GIA has supported the efforts of trade bodies, including the GJEPC, in addressing issues of importance to the trade and to advance consumer protections.”
While grading fraud has been an issue for years, the phenomenon has become especially common since the rise of lab-grown diamonds.
In August, police in India discovered a scam in which people had sold low-quality diamonds bearing counterfeit certificates, a number of them involving forged GIA report numbers. Some of the stones were lab-grown but carried natural-diamond reports.
In May, the GIA reported a rise in submissions of lab-grown diamonds with counterfeit inscriptions.
Clarification, November 9, 2021: This article has been updated to clarify that not all the named organizations have signed up to the charter, which is still in a draft stage. A quote from the GIA has also been added.