Monday, May 13, 2013

Diamond Exhibition

The NJ/NY Gem and Jewelry show. The first show was attended by 6,000 visitors and had 115 exhibitors offering minerals, fossils, meteorites, gems, jewelry, gold, silver, opals, petrified wood, and much more. Both the general public and advanced collectors were wowed by the specimens in the 'Fine Mineral and Gem Gallery'. And the $2 million worth of genuine dinosaurs skeletons was not to be missed! We also debuted the 4-ton 'American Woman' sculpture chiseled from a single 21-ton block of Colorado marble. The enthusiastic response from our visitors set the course for a much bigger and better show the following year in 2013. But first we had to move to a larger venue, which was the 150,000 square foot NJ Conference and Exposition Center. For a 2012 show report click the 'Read More' button.

It doesn't get much better than this! A lovely sky blue topaz crystal from Itinga, Jequitinhonha Valley, Minas Gerais, Brazil, occupies center position and entices the eye. Or how about that exquisite Meikle Mine barite, from the Bootstrap District, Elko County, Nevada. I'm running out of adjectives here! Not too shabby - the tall statuesque green tourmaline with lepidolite from Itinga is probably the exact, extreme opposite of shabby!

Almost Unbelievable. This giant sized, partially etched heliodore from Minas Gerais, Brazil seemed like it was about 10 inches tall at least, and probably weighed about 10 lbs. or more.

A "rockin" gold in quartz from the colorful and historical 16 to 1 Mine, in Sierra County, California. The gold production from this long running mine was once estimated at one million ounces. That's a staggering value considering today's spot price. I'm not sure I can hold all those zeros in my brain!

The "Africa Nugget" is a continent shaped gold that was found near Bendigo, Victoria, Australia. As the tag indicates this awesome nugget was displayed at the American Museum of Natural History's GOLD! exhibit, in 2008.

Practically Peerless. This textbook, gem aquamarine crystal from the Shigar Valley, Northern Areas of Pakistan, rises up to a foot in height.

Exploding Wave! This quartz, var. amethyst, from Guerrero, Mexico, has a great look, with nice dark, gemmy, undamaged crystals. It stands probably at least 10 inches tall.

This superb botryoidal chalcedony mass from the Withlacoochie River of Lowndes County Georgia is the finest example of a chalcedony from that area ever found. What can I say? I'm an Oregon guy. I brake for agates!

Bigger than a basketball. Maybe even two basketballs! This huge aquamarine and muscovite cluster was displayed by Arif and Aisha Jan, of Rocksaholics. It was found in Nagar, Hunza Valley, Northern Areas of Pakistan. The sweet natured and unpretentious couple had a very fine display of Pakistani minerals. The aquamarines from this area have to be some of the finest in the world.

Another superb large aquamarine and muscovite cluster from Rock saholics. I guess you can tell these were my favorites.

A juicy watermelon tourmaline perches on a huge smoky quartz elestial, in this fine specimen from Paprock, Nuristan Province, Afghanistan.....continue reading

Saturday, May 4, 2013

History of Diamond

In mineralogy, diamond (from the ancient Greek αδάμας – adámas "unbreakable") is a metastable allotrope of carbon, where the carbon atoms are arranged in a variation of the face-centered cubic crystal structure called a diamond lattice. Diamond is less stable than graphite, but the conversion rate from diamond to graphite is negligible at ambient conditions. Diamond is renowned as a material with superlative physical qualities, most of which originate from the strong covalent bonding between its atoms. In particular, diamond has the highest hardness and thermal conductivity of any bulk material. Those properties determine the major industrial application of diamond in cutting and polishing tools and the scientific applications in diamond knives and diamond anvil cells.

Diamond has remarkable optical characteristics. Because of its extremely rigid lattice, it can be contaminated by very few types of impurities, such as boron and nitrogen. Combined with wide transparency, this results in the clear, colorless appearance of most natural diamonds. Small amounts of defects or impurities (about one per million of lattice atoms) color diamond blue (boron), yellow (nitrogen), brown (lattice defects), green (radiation exposure), purple, pink, orange or red. Diamond also has relatively high optical dispersion (ability to disperse light of different colors), which results in its characteristic luster. Excellent optical and mechanical properties, notably unparalleled hardness and durability, make diamond the most popular gemstone.

Most natural diamonds are formed at high temperature and pressure at depths of 140 to 190 kilometers (87 to 120 mi) in the Earth's mantle. Carbon-containing minerals provide the carbon source, and the growth occurs over periods from 1 billion to 3.3 billion years (25% to 75% of the age of the Earth). Diamonds are brought close to the Earth′s surface through deep volcanic eruptions by a magma, which cools into igneous rocks known as kimberlites and lamproites. Diamonds can also be produced synthetically in a high-pressure high-temperature process which approximately simulates the conditions in the Earth mantle. An alternative, and completely different growth technique is chemical vapor deposition (CVD). Several non-diamond materials, which include cubic zirconia and silicon carbide and are often called diamond simulants, resemble diamond in appearance and many properties. Special gemological techniques have been developed to distinguish natural and synthetic diamonds and diamond simulants.

The name diamond is derived from the ancient Greek αδάμας (adámas), "proper", "unalterable", "unbreakable", "untamed", from ἀ- (a-), "un-" + δαμάω (damáō), "I overpower", "I tame".^[3] Diamonds are thought to have been first recognized and mined in India, where significant alluvial deposits of the stone could be found many centuries ago along the rivers Penner, Krishna and Godavari. Diamonds have been known in India for at least 3,000 years but most likely 6,000 years.^[4]

Diamonds have been treasured as gemstones since their use as religious icons in ancient India. Their usage in engraving tools also dates to early human history.^[5]^[6] The popularity of diamonds has risen since the 19th century because of increased supply, improved cutting and polishing techniques, growth in the world economy, and innovative and successful advertising campaigns.^[7]

In 1772, Antoine Lavoisier used a lens to concentrate the rays of the sun on a diamond in an atmosphere of oxygen, and showed that the only product of the combustion was carbon dioxide, proving that diamond is composed of carbon. Later in 1797, Smithson Tennant repeated and expanded that experiment. By demonstrating that burning diamond and graphite releases the same amount of gas he established the chemical equivalence of these substances.

The most familiar use of diamonds today is as gemstones used for adornment, a use which dates back into antiquity. The dispersion of white light into spectral colors is the primary gemological characteristic of gem diamonds. In the 20th century, experts in gemology have developed methods of grading diamonds and other gemstones based on the characteristics most important to their value as a gem. Four characteristics, known informally as the four Cs, are now commonly used as the basic descriptors of diamonds: these are carat, cut, color, and clarity. A large, flawless diamond is known as a paragon.

Natural history

The formation of natural diamond requires very specific conditions—exposure of carbon-bearing materials to high pressure, ranging approximately between 45 and 60 kilobars (4.5 and 6 GPa), but at a comparatively low temperature range between approximately 900 and 1,300 °C (1,652 and 2,372 °F). These conditions are met in two places on Earth; in the lithospheric mantle below relatively stable continental plates, and at the site of a meteorite strike.^[10]

Formation in cratons

One face of an uncut octahedral diamond, showing trigons (of positive and negative relief) formed by natural chemical etching

A triangular facet of a crystal having triangular etch pits with the largest having a base length of about 0.2 millimetres (0.0079 in)

The conditions for diamond formation to happen in the lithospheric mantle occur at considerable depth corresponding to the requirements of temperature and pressure. These depths are estimated between 140 and 190 kilometers (87 and 120 mi) though occasionally diamonds have crystallized at depths about 300 kilometers (190 mi).^[11] The rate at which temperature changes with increasing depth into the Earth varies greatly in different parts of the Earth. In particular, under oceanic plates the temperature rises more quickly with depth, beyond the range required for diamond formation at the depth required. The correct combination of temperature and pressure is only found in the thick, ancient, and stable parts of continental plates where regions of lithosphere known as cratons exist. Long residence in the cratonic lithosphere allows diamond crystals to grow larger.

Through studies of carbon isotope ratios (similar to the methodology used in carbon dating, except with the stable isotopes C-12 and C-13), it has been shown that the carbon found in diamonds comes from both inorganic and organic sources. Some diamonds, known as harzburgitic, are formed from inorganic carbon originally found deep in the Earth's mantle. In contrast, eclogitic diamonds contain organic carbon from organic detritus that has been pushed down from the surface of the Earth's crust through subduction (see plate tectonics) before transforming into diamond. These two different source of carbon have measurably different ¹³C:¹²C ratios. Diamonds that have come to the Earth's surface are generally quite old, ranging from under 1 billion to 3.3 billion years old. This is 22% to 73% of the age of the Earth.

Diamonds occur most often as euhedral or rounded octahedra and twinned octahedra known as macles. As diamond's crystal structure has a cubic arrangement of the atoms, they have many facets that belong to a cube, octahedron, rhombicosidodecahedron, tetrakis hexahedron or disdyakis dodecahedron. The crystals can have rounded off and unexpressive edges and can be elongated. Sometimes they are found grown together or form double "twinned" crystals at the surfaces of the octahedron. These different shapes and habits of some diamonds result from differing external circumstances. Diamonds (especially those with rounded crystal faces) are commonly found coated in nyf, an opaque gum-like skin.

Space diamonds

Transport from mantle

Schematic cross section of an underground region 3 km deep and 2 km wide. A red dike stretches across the bottom, and a pipe containing some xenoliths runs from the dike to the surface, varying from red at the bottom to orange-yellow at the top. The pipe's root, at its bottom, is about 1 km long, and its diatreme, above the root, is about 1.5 km long. The pipe's top is a crater, rimmed by a tuff ring and containing washed-back ejecta. The erosion level is almost zero for Orapa, about 1 km for Jagersfontein, and about 1.4 km for Kimberley.

Schematic diagram of a volcanic pipe

Diamond-bearing rock is carried from the mantle to the Earth's surface by deep-origin volcanic eruptions. The magma for such a volcano must originate at a depth where diamonds can be formed—150 km (93 mi) or more (three times or more the depth of source magma for most volcanoes). This is a relatively rare occurrence. These typically small surface volcanic craters extend downward in formations known as volcanic pipes. The pipes contain material that was transported toward the surface by volcanic action, but was not ejected before the volcanic activity ceased. During eruption these pipes are open to the surface, resulting in open circulation; many xenoliths of surface rock and even wood and fossils are found in volcanic pipes. Diamond-bearing volcanic pipes are closely related to the oldest, coolest regions of continental crust (cratons). This is because cratons are very thick, and their lithospheric mantle extends to great enough depth that diamonds are stable. Not all pipes contain diamonds, and even fewer contain enough diamonds to make mining economically viable.^[11]

The magma in volcanic pipes is usually one of two characteristic types, which cool into igneous rock known as either kimberlite or lamproite.^[11] The magma itself does not contain diamond; instead, it acts as an elevator that carries deep-formed rocks (xenoliths), minerals (xenocrysts), and fluids upward. These rocks are characteristically rich in magnesium-bearing olivine, pyroxene, and amphibole minerals^[11] which are often altered to serpentine by heat and fluids during and after eruption. Certain indicator minerals typically occur within diamantiferous kimberlites and are used as mineralogical tracers by prospectors, who follow the indicator trail back to the volcanic pipe which may contain diamonds. These minerals are rich in chromium (Cr) or titanium (Ti), elements which impart bright colors to the minerals. The most common indicator minerals are chromium garnets (usually bright red chromium-pyrope, and occasionally green ugrandite-series garnets), eclogitic garnets, orange titanium-pyrope, red high-chromium spinels, dark chromite, bright green chromium-diopside, glassy green olivine, black picroilmenite, and magnetite. Kimberlite deposits are known as blue ground for the deeper serpentinized part of the deposits, or as yellow ground for the near surface smectite clay and carbonate weathered and oxidized portion.

Once diamonds have been transported to the surface by magma in a volcanic pipe, they may erode out and be distributed over a large area. A volcanic pipe containing diamonds is known as a primary source of diamonds. Secondary sources of diamonds include all areas where a significant number of diamonds have been eroded out of their kimberlite or lamproite matrix, and accumulated because of water or wind action. These include alluvial deposits and deposits along existing and ancient shorelines, where loose diamonds tend to accumulate because of their size and density. Diamonds have also rarely been found in deposits left behind by glaciers (notably in Wisconsin and Indiana); in contrast to alluvial deposits, glacial deposits are minor and are therefore not viable commercial sources of diamond....continue reading...

Saturday, April 6, 2013

International Jewelry London 2013 Exhibition

STORY by Kranz & Ziegler and Lovelinks by Aagaard hosted the UK's key fashion press at an exclusive, invite only event held at Kettners, Romilly Street on 13th March 2013.
Fashion editors from YOU magazine, The Daily Mail and Hello! joined...

Aagaard press launch at Kettners

STORY by Kranz & Ziegler and Lovelinks by Aagaard hosted the UK's key fashion press at an exclusive, invite only event held at Kettners, Romilly Street on 13th March 2013. Fashion editors from YOU magazine, The Daily Mail and Hello! joined...
Jewellery Trends AW2013 IJL Catwalk Report

To kick off A/W2013 we’ve been working with our fabulous trend partners Adorn Insight to bring you a roundup of the Autumn/Winter 2013 jewellery catwalk trends that will be influencing buyers next season. We’ve rounded up the hottest fashion...
Jewellery Trends AW2013 IJL Catwalk Report

To kick off A/W2013 we’ve been working with our fabulous trend partners Adorn Insight to bring you a roundup of the Autumn/Winter 2013 jewellery catwalk trends that will be influencing buyers next season. We’ve rounded up the hottest fashion...
Easter Eggs or Fabergé Eggs?

There’s not long to go until Easter… that magical time of year when we systematically over indulge and eat too many Easter eggs. Here at IJL Towers we like to treat our bodies as the temples they are so we’re always on the lookout for a...
Easter Eggs or Fabergé Eggs?

There’s not long to go until Easter… that magical time of year when we systematically over indulge and eat too many Easter eggs. Here at IJL Towers we like to treat our bodies as the temples they are so we’re always on the lookout for a...
Vanilla Ink to take IJL by storm!

It’s an exciting year for Vanilla Ink and here at IJL Towers, we’re excited about them too. They got the industry talking by bursting onto the national scene with a unique crowd-funding scheme. This raised money, so that they could achieve their...
Vanilla Ink to take IJL by storm!

It’s an exciting year for Vanilla Ink and here at IJL Towers, we’re excited about them too. They got the industry talking by bursting onto the national scene with a unique crowd-funding scheme. This raised money, so that they could achieve their...
Quirky wedding anniversary gifts

Here at IJL towers we love all things jewellery, so when the discussion of wedding anniversary gifts came up we were all intrigued as to what gifts you should be giving and when – and more importantly how you could apply each gift to a relevant...
Quirky wedding anniversary gifts

Here at IJL towers we love all things jewellery, so when the discussion of wedding anniversary gifts came up we were all intrigued as to what gifts you should be giving and when – and more importantly how you could apply each gift to a relevant...
Jewellery Trends Spring/Summer 2013

We are very excited here at IJL Towers as this is our first blog post for 2013. What better way to start than by revealing the Spring/Summer 2013 jewellery trends. Hot of the press from the Adorn London blog provided courtesy of Adorn Insight our...
Jewellery Trends Spring/Summer 2013

We are very excited here at IJL Towers as this is our first blog post for 2013. What better way to start than by revealing the Spring/Summer 2013 jewellery trends. Hot of the press from the Adorn London blog provided courtesy of Adorn Insight our...

Author Jewellery Show - International Jewellery London

Monday, January 28, 2013

Most expensive car with diamond

Bugatti Veyron Diamond

Bugatti Veyron Diamond Limited, the most expensive model car at $3 million, whereas the real super car costs around $1.5 million.

This is the world's most expensive model car. The Bugatti Veyron Diamond Ltd is on sale for two million pounds - twice as much as the real thing. Liverpool-based designer Stuart Hughes took two months to create the intricate 1:18 scale model in partnership with Swiss luxury model car maker Robert Gulpen. Weighing in at 7kg, it has been created with platinum, solid 24ct gold, and a 7.2ct single cut flawless diamond on its front grill. The 10 inch car also boats functional steering and a highly detailed engine. In a limited edition of three, owners also get a certification of authenticity, an aluminium case and photo documentation of the manufacturing process

$1.5M Russian SUV Features Diamonds, Whale Penis Leather

Whale penis leather interior. That's all you really need to know about the $1.5 million Dartz Prombron Monaco Red Diamond Edition. Yes, the diamond-encrusted white gold gauges and gold-plated bulletproof windows are impressive, but seriously, whale penis leather interior.
The already bulletproof and wildly over-the-top 8.1 liter GM V8-powered Dartz Kombat T98 is getting a name change to Prombron and along with it will come a complete and brain-maimingly bourgeoisie upgrade with the Monaco Red Diamond Edition. The world's most expensive ultra-luxury SUV will debut at the 2010 Top Marques Monaco show with luxe features crazy enough to make a Maybach blush. For your $1.5 million you get the following features:

1. Ruby Red matte paint
2. Gold-plated bulletproof windows
3. 22" Kremlin Red Star bulletproof wheels
4. Whale Penis Leather interior
5. Tungsten exhaust
6. Tungsten and white gold gauges with diamonds and rubies
7. White gold diamond and ruby encrusted badges - grill, side and dashboard
8. Special edition Vertu mobile phone with "alert" button
9. Additional outside kevlar coating
10. Rogue Acoustic Audio System.
And, of course, of course -
THREE BOTTLES OF World Most Expensive Vodka - RussoBaltique Vodka, drink edition, same as in the RussoBaltique car when it visited Monaco at 1912.

We have a lot of questions about this car, most of them whale penis leather-related, but in the bigger picture, this brazen finger-in-the-eye raises a good point, so to speak. What makes a luxury vehicle? Things we used to think of as luxury - bovine leather, wood trim, high-end audio, etc., have become mainstream. Does it take exceptionally ridiculous material selection and bold ostentatious flair to define new luxury? Is it encapsulating yourself in a vehicle capable of taking a direct hit from a rocket propelled grenade? Does it mean emulating the wild excess of past luxury much like the Red Diamond is doing? Who knows. But we're betting the tzars would roll in one of these babies.

Sunday, January 27, 2013

Celebrity Engagement Rings

Prince William proposed to his longtime girlfriend in 2010 with the same 18-carat sapphire and diamond ring that his father, Prince Charles, gave to his mother, Princess Diana. Nick Cannon proposed to pop diva Mariah Carey with a stunning 17-carat emerald-cut pink diamond ring surrounded by 58 pink diamonds. The couple married in 2008. Billion-dollar real-estate mogul Donald Trump proposed to Melania Knauss with a stunning 12-carat ring in 2004. Justin Theroux proposed to actress Jennifer Aniston in August 2012 with an oval diamond estimated to be between 12 and 18 carats. Prince Rainier III of Monaco proposed to legendary Hollywood beauty Grace Kelly with a 10.5-carat square-cut diamond ring in 1955. Brad Pitt proposed to longtime partner Angelina Jolie in April 2012 with a rectangular diamond ring estimated to be more than 10 carats. Actor Adam Shulman popped the question to Anne Hathaway in 2011 with a 6-carat emerald-cut diamond ring by New York jewelry company Kwiat. Justin Timberlake proposed to wife Jessica Biel in December 2011 while vacationing in Montana with an 18-carat white gold and black rhodium plated ring. The setting featured two aquamarines on either side, Biel's birthstone. Jay-Z proposed to Beyonce with an 18-carat diamond ring; the couple married in 2008.

The most expensive engagement rings

Paris Hilton's engagement ring

Paris Hilton is more famous for her off screen media engulfing attributes than on screen excellence. Her engagement ring was also popular in the media. Paris Latsis gifted his lady love a big fat engagement ring, studded with 24 carat diamonds. With a price tag of $4.7 million, Hilton babe found it too bulky initially and later got a simplified version from Cartier. Price US$. 4.7 Million

Beyonce Diamond Ring: US$/ 5 Million

Saturday, January 26, 2013

The Biggest Diamond In The World

The Golden Jubilee, at 545.67 carats (109.13 g), is currently the largest faceted diamond in the world. Since 1908, Cullinan I, also known as the Great Star of Africa, had held the title. But this changed following the 1985 discovery of a large brown diamond of 755.5 carats (151 g) in the prolific blue ground of the Premier mine in South Africa; it would later be cut into the Golden Jubilee.

The Premier mine was also the origin of the Cullinan diamonds in 1905, as well as other notables such as the Taylor-Burton in 1966 and the Centenary in 1986. The "Unnamed Brown", as the Golden Jubilee was first known, was considered something of an ugly duckling by most. It was given to Gabriel Tolkowsky by De Beers for the purpose of testing special tools and cutting methods which had been developed for intended use on the flawless D-colour ("colourless") Centenary. These tools and methods had never been tested before, and the "Unnamed Brown" seemed the perfect guinea pig; it would be of no great loss should something go amiss. Cutting and polishing the diamond was challenging because of its large surfaces, deep cracks from inside, and several inclusions. The diamond was cut in a specially designed underground room that was free from vibrations. It took two years to bring it to its current state.To the surprise of all concerned, what resulted was a yellow-brown diamond in a fire rose cushion cut, outweighing Cullinan I by 15.37 carats (3.07 g). The stone remained largely unknown to the outside world, as the Golden Jubilee's sister, the Centenary, had already been selected and promoted to herald De Beer's centennial celebrations in 1988.

The unnamed diamond had earlier been brought to Thailand by the Thai Diamond Manufacturers Association to be exhibited in the Thai Board of Investment Exhibition in Laem Chabang. There was a mile-long queue to see the diamond, which outshone all other exhibits.

While the current whereabouts of the Centenary are unknown, the Golden Jubilee is known to have been purchased from De Beers by a group led by Henry Ho of Thailand in 1995. The diamond was brought to Pope John Paul II in the Vatican to receive the papal blessing. It was also blessed by the Supreme Buddhist Patriarch and the Supreme Imam in Thailand. The Golden Jubilee Diamond (Thai: เพชรกาญจนาภิเษก) was named by King Bhumibol Adulyadej and given to him in honour of his 50th coronation anniversary. It was initially planned to mount the Golden Jubilee in the royal scepter. A subsequent plan was to have it mounted in a royal seal.

The Golden Jubilee Diamond has been exhibited at Henry Ho's 59-storey Jewelry Trade Center in Bangkok, the Central Department Store in Lad Prao (Bangkok) Thailand, and internationally in Basel (Switzerland), Borsheims in Omaha, NE, USA (owned by Warren Buffett's Berkshire Hathaway Inc.), and Gleims Jewelers in Palo Alto, CA, USA. It is now located in the Royal Thai Palace as part of the crown jewels.

The Cullinan diamond is the largest rough gem-quality diamond ever found, at 3,106.75 carats (621.35 g).The largest polished gem from the stone is named Cullinan I or the Great Star of Africa, and at 530.4 carats (106.1 g)^[2] was the largest polished diamond in the world until the 1985 discovery of the Golden Jubilee Diamond, 545.67 carats (109.13 g), also from the Premier Mine. Cullinan I is now mounted in the head of the Sceptre with the Cross. The second largest gem from the Cullinan stone, Cullinan II or the Lesser Star of Africa, at 317.4 carats (63.5 g), is the fourth largest polished diamond in the world. Both gems are in the Crown Jewels of the United Kingdom.

History
The Cullinan diamond was found by Thomas Evan Powell, a miner who brought it to the surface and gave it to Frederick Wells, surface manager of the Premier Diamond Mining Company in Cullinan, South Africa on January 26, 1905. The stone was named after Sir Thomas Cullinan, the owner of the diamond mine.
Sir William Crookes performed an analysis of the Cullinan diamond before it was cut and mentioned its remarkable clarity, but also a black spot in the middle. The colours around the black spot were very vivid and changed as the analyzer was turned. According to Crookes, this pointed to internal strain. Such strain is not uncommon in diamonds.
The stone was bought by the Transvaal government and presented to King Edward VII on his birthday.It was cut into three large parts by Asscher Brothers of Amsterdam, and eventually into 9 large gem-quality stones and a number of smaller fragments. At the time, technology had not yet evolved to guarantee quality of the modern standard, and cutting the diamond was considered difficult and risky. In order to enable Asscher to cut the diamond in one blow, an incision was made, half an inch deep. Then, a specifically designed knife was placed in the incision and the diamond was split in one heavy blow. The diamond split through a defective spot, which was shared in both halves of the diamond

The Spirit of de Grisogono is the world's largest cut black diamond and the world's fifth largest diamond overall. Starting at an uncut weight of 587 carats (117 g), it was taken from its origin in west central Africa and cut by Swiss jeweler De Grisogono. The resulting mogul-cut diamond weighs 312.24 carats (62.45 g) and is set in a white gold ring with 702 smaller white diamonds totaling 36.69 carats (7.34 g). The ring is said to have been sold.

The particularly unique feature of this diamond is that it’s the world’s largest black diamond ever found. Black diamonds are extremely rare, the rarest form of diamonds existing on earth. This particular black beauty was found in central Africa and cut by Swiss jeweler De Grisogono. It was cut using the Mogul diamond cutting technique. This historic cutting method was developed centuries ago in India and can be seen in a number of historic diamonds. The mogul-cut diamond is set in a white gold ring with 702 smaller white diamonds totaling 36.69 carats (7.34 g). I would love to have this one my finger!

Thursday, January 24, 2013

Ten Rarest Gemstone In The World

Sérandite, also serandite,^[3] is a mineral with formula Na(Mn²⁺,Ca)₂Si₃O₈(OH). The mineral was discovered in Guinea in 1931 and named for J. M. Sérand. Sérandite is generally red, brown, black or colorless.

Sérandite was discovered on Rouma Island, part of the Los Islands in Guinea.^[2] The mineral was described by À. Lacroix in the journal Comptes Rendus hebdomadaires des séances de l’Académie des Sciences.He named it sérandite in honor of J.M. Sérand, a mineral collector who helped in the collection of the mineral

Sérandite is transparent to translucent and is normally salmon-pink, light pink, rose-red, orange, brown, black, or colorless; in thin section, it is colorless.^[1] Octahedrally bonded Mn(II) is the primary contributor to the mineral's pink colors.
Crystals of the mineral can be prismatic to acicular and elongated along [010], bladed, blocky, or tabular and flattened on {100}, occur as a radiating aggregate, or have massive habit.^[1] Sérandite is a member of the wollastonite group and is the manganese analogue of pectolite

The Gemstone

Jewelry