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ChemicalBook > Product Catalog >Inorganic chemistry >Elementary substance >Boron

Boron

Boron Structure
CAS No.
7440-42-8
Chemical Name:
Boron
Synonyms
Bor;Boron powder;BORON-11;Amorphous element boron;BORON CRYSTALLINE 99.999%;Bα;BORON;B AM II;B KR K1;B KR K2
CBNumber:
CB0299730
Molecular Formula:
B
Molecular Weight:
10.81
MOL File:
7440-42-8.mol
MSDS File:
SDS
Modify Date:
2024/7/16 18:25:32
Request For Quotation

Boron Properties

Melting point 2300°C
Boiling point 2550°C
Density 2.34 g/mL at 25 °C (lit.)
storage temp. no restrictions.
solubility H2O: soluble
form Powder
color Brown or dark
Specific Gravity 2.34~2.37
Resistivity 1.5E12 μΩ-cm, 20 °C
Water Solubility insoluble H2O [MER06]
Crystal Structure Trigonal (rhombohedral) a = 1017 pm α = 65°12' hR105, R3m, β-B type
Merck 13,1333
Exposure limits ACGIH: TWA 2 mg/m3; STEL 6 mg/m3
Stability Stable. Substances to be avoided include strong oxidizing agents and strong acids. May decompose on exposure to air - store under nitrogen. Highly flammable.
InChIKey UORVGPXVDQYIDP-UHFFFAOYSA-N
CAS DataBase Reference 7440-42-8(CAS DataBase Reference)
NIST Chemistry Reference Boron(7440-42-8)
EPA Substance Registry System Boron (7440-42-8)

Boron Properties

Hardness, Mohs 9.5
Knoop Microhardness 3300

SAFETY

Risk and Safety Statements

Symbol(GHS) 
GHS07
Signal word  Warning
Hazard statements  H302-H412
Precautionary statements  P264-P270-P273-P301+P312-P501
Hazard Codes  Xn,F
Risk Statements  22-11-63-62
Safety Statements  16-24/25-45-36/37/39-27-26
RIDADR  UN 3178 4.1/PG 2
WGK Germany  -
RTECS  ED7350000
TSCA  Yes
HazardClass  4.1
PackingGroup  III
HS Code  28045000
NFPA 704
0
3 0

Boron price More Price(43)

Manufacturer Product number Product description CAS number Packaging Price Updated Buy
Sigma-Aldrich(India) 266620 Boron crystalline, 1?cm, 99.7% trace metals basis 7440-42-8 5G ₹10908.7 2022-06-14 Buy
Sigma-Aldrich(India) 266620 Boron crystalline, 1?cm, 99.7% trace metals basis 7440-42-8 25G ₹30647.75 2022-06-14 Buy
Sigma-Aldrich(India) 15580 Boron ≥95% (boron), amorphous powder 7440-42-8 5G ₹5243.35 2022-06-14 Buy
Sigma-Aldrich(India) 1.12070 Boron powder 7440-42-8 10G ₹7920.01 2022-06-14 Buy
Sigma-Aldrich(India) 15580 Boron ≥95% (boron), amorphous powder 7440-42-8 50G ₹10180.75 2022-06-14 Buy
Product number Packaging Price Buy
266620 5G ₹10908.7 Buy
266620 25G ₹30647.75 Buy
15580 5G ₹5243.35 Buy
1.12070 10G ₹7920.01 Buy
15580 50G ₹10180.75 Buy

Boron Chemical Properties,Uses,Production

Description

Boron was discovered by Sir Humphry Davy and J.L. Gay-Lussac in 1808. It is a trivalent non-metallic element that occurs abundantly in the evaporite ores borax and ulexite. Boron is never found as a free element on Earth. Boron appears as charcoal-grey pieces or black powder or as crystalline; is a very hard, black material with a high melting point; and exists in many polymorphs.
Boron
Boron has several forms, and the most common one is amorphous boron, a dark powder, non-reactive to oxygen, water, acids, and alkalis. It reacts with metals to form borides. Boron is an essential plant micronutrient. Sodium borate is used in biochemical and chemical laboratories to make buffers. Boric acid is produced mainly from borate minerals by the reaction with sulphuric acid. Boric acid is an important compound used in textile products. The most economically important compound of boron is sodium tetraborate decahydrate or borax, used for insulating fibreglass and sodium perborate bleach. Compounds of boron are used in organic synthesis, in the manufacture of a particular type of glasses, and as wood preservatives. Boron filaments are used for advanced aerospace structures, due to their high strength and light weight.

Chemical Properties

Boron is a yellow or brownish-black powder and may be either crystalline or amorphous. It does not occur free in nature and is found in the minerals borax, colemanite, boronatrocalcite, and boracite. It is insoluble in water but soluble in nitric and sulfuric acids. It is insoluble in cold water, hot water, diethyl ether, and alcohol. If finely divided, it is soluble in most molten metals such as copper, iron, magnesium, aluminum, and calcium. Borates are relatively soluble in water.

Physical properties

Boron has only three electrons in its outer shell, which makes it more metal than nonmetal.Nonmetals have four or more electrons in their valence shell. Even so, boron is somewhatrelated to metalloids and also to nonmetals in period 2.
It is never found in its free, pure form in nature. Although less reactive than the metalswith fewer electrons in their outer orbits, boron is usually compounded with oxygen andsodium, along with water, and in this compound, it is referred to as borax. It is also found asa hard, brittle, dark-brown substance with a metallic luster, as an amorphous powder, or asshiny-black crystals.
Its melting point is 2,079°C, its boiling point is 2,550°C, and its density is 2.37 g/cm3.

Isotopes

There are a total of 13 isotopes of boron, two of which are stable. The stableisotope B-10 provides 19.85% of the element’s abundance as found in the Earth’s crust,and the isotope B-11 provides 80.2% of boron’s abundance on Earth.

Origin of Name

It is named after the Arabic word bawraq, which means “white borax.”

Occurrence

Boron is the 38th most abundant element on Earth. It makes up about 0.001% of theEarth’s crust, or 10 parts per million, which is about the same abundance as lead. It is notfound as a free element in nature but rather in the mineral borax, which is a compound ofhydrated sodium, hydrogen, and water. Borax is found in salty lakes, dry lake-beds, or alkalisoils. Other naturally occurring compounds are either red crystalline or less dense, dark-brownor black powder.
Boron is also found in kernite, colemanite, and ulexite ores, and is mined in many countries,including the western United States.

Characteristics

Boron is a semimetal, sometimes classed as a metallic or metalloid or even as a nonmetal.It resembles carbon more closely than aluminum. Although it is extremely hard in its purified form—almost as hard asdiamonds—it is more brittle than diamonds, thus limiting its usefulness. It is an excellentconductor of electricity at high temperatures, but acts as an insulator at lower temperatures.

Uses

Boron has found many uses and has become an important industrial chemical. Boron is used as an alloy metal, and when combined with other metals, it imparts exceptional strength to those metals at high temperatures. It is an excellent neutron absorber used to capture neutrons in nuclear reactors to prevent a runaway fission reaction. As the boron rods are lowered into the reactor, they control the rate of fission by absorbing excess neutrons. Boron is also used as an oxygen absorber in the production of copper and other metals, Boron finds uses in the cosmetics industry (talc powder), in soaps and adhesives, and as an environmentally safe insecticide. A small amount of boron is added as a dope to silicon transistor chips to facilitate or impede the flow of current over the chip. Boron has just three valence electrons; silicon atoms have four. This dearth of one electron in boron s outer shell allows it to act as a positive hole in the silicon chip that can be filled or left vacant, thus acting as a type of switch in transistors. Many of today s electronic devices depend on these types of doped-silicon semiconductors and transistors. Boron is also used to manufacture borosilicate glass and to form enamels that provide a protective coating for steel. It is also used as medication for relief of the symptoms of arthritis. Due to boron s unique structure and chemical properties, there are still more unusual compounds to be explored.

Preparation

Boron may be prepared by several methods, such as chemical reduction of boron compounds, electrolytic reduction in nonaqueous phase, or by thermal decomposition. Many boron compounds including boron oxides, borates, boron halides, borohydrides, and fluoroborates can be reduced to boron by a reactive metal or hydrogen at high temperatures:
B2O3 + 3Ca → 2B + 3CaO
The metal is obtained as a black amorphous product.
2BCl3 + 3H2 → 2B + 6HCl
High purity grade boron may be prepared by such hydrogen reduction at high temperatures using a hot filament.
Electrolytic reduction and thermal decomposition have not yet been applied in large scale commercial methods. Electrolysis of alkali or alkaline earth borates produces boron in low purity. Electrolytic reduction of fused melts of boron trioxide or potassium tetrafluroborate in potassium chloride yield boron in high purity. Also, boron tribromide or boron hydrides may be thermally dissociated by heating at elevated temperatures.
Impurities from boron may be removed by successive recrystallization or volatilization at high temperatures. Removal of certain impurities such as oxygen, nitrogen, hydrogen or carbon from boron are more difficult and involve more complex steps.

Production Methods

Until the late 1990s elemental boron had not found widespread use in industry, where cost of production was a major obstacle. Now, there is increasing use as new applications for the element are developed in material composites and use in nanotechnology.

Definition

boron: Symbol B. An element ofgroup 13 (formerly IIIB) of the periodictable; a.n. 5; r.a.m. 10.81; r.d.2.34–2.37 (amorphous); m.p. 2300°C;b.p. 2550°C. It forms two allotropes;amorphous boron is a brown powderbut metallic boron is black. Themetallic form is very hard (9.3 onMohs’ scale) and is a poor electrical conductor at room temperature. Atleast three crystalline forms are possible;two are rhombohedral and theother tetragonal. The element isnever found free in nature. It occursas orthoboric acid in volcanic springsin Tuscany, as borates in kernite(Na2B4O7.4H2O), and as colemanite(Ca2B6O11.5H2O) in California. Samplesusually contain isotopes in theratio of 19.78% boron–10 to 80.22%boron–11. Extraction is achieved byvapour-phase reduction of borontrichloride with hydrogen on electricallyheated filaments. Amorphousboron can be obtained by reducingthe trioxide with magnesium powder.Boron when heated reacts withoxygen, halogens, oxidizing acids,and hot alkalis. It is used in semiconductorsand in filaments for specializedaerospace applications.Amorphous boron is used in flares,giving a green coloration. The isotopeboron–10 is used in nuclear reactorcontrol rods and shields. Theelement was discovered in 1808 bySir Humphry Davy and by J. L. Gay-Lussac and L. J. Thenard.

Hazard

Powdered or fine dust of elemental boron is explosive in air and toxic if inhaled. Several ofthe compounds of boron are very toxic if ingested or if they come in contact with the skin. Thisis particularly true of the boron compounds used for strong insecticides and herbicides.

Health Hazard

Boron has been studied extensively for its nutritional importance in animals and humans. There is a growing body of evidence that boron may be an essential element in animals and humans. Many nutritionists believe that people would benefi t from more boron and many popular multivitamins, such as centrum, in the diet. The adverse health effects of boron on humans is limited. However, ingestion/inhalation causes irritation to the mucous membrane and boron poisoning. Short-term exposures to boron in work areas are known to cause irritation of the eye, the upper respiratory tract, and the naso-pharynx, but the irritation disappears with the stoppage of further exposure. Ingestion of large amounts of boron (about 30 g of boric acid)over short periods of time is known to affect the stomach, intestines, liver, kidney, and brain and can eventually lead to death in exposed people.

Industrial uses

Boron (symbol B) is a metallic element closelyresembling silicon. Boron has a specific gravityof 2.31, a melting point of about 2200°C, anda Knoop hardness of 2700 to 3200, equal to aMohs hardness of about 9.3. At 600°C, boronignites and burns with a brilliant green flame.Minute quantities of boron are used in steelsfor case hardening by the nitriding process toform a boron nitride, and in other steels toincrease hardenability, or depth of hardness. Inthese boron steels, as little as 0.003% is beneficial,forming an iron boride, but with largeramounts the steel becomes brittle and susceptibleto hot-short unless it contains titanium orsome other element to stabilize the carbon . Incast iron, boron inhibits graphitization and alsoserves as a deoxidizer. It is added to iron andsteel in the form of ferroboron.
Boron compounds are employed for fluxesand deoxidizing agents in melting metals, andfor making special glasses. Boron, like siliconand carbon, has an immense capacity for formingcompounds, although it has a differentvalence. The boron atom appears to have a lenticularshape, and two boron atoms can make astrong electromagnetic bond, with the boronacting like carbon but with a double ring.

Potential Exposure

Boron is used in metallurgy as a degasifying agent and is alloyed with aluminum, iron, and steel to increase hardness. It is also a neutron absorber in nuclear reactors. Boron is frequently encountered in a variety of chemical formulations including boric acid, various borate salts, borax, and boron soil supplements.

Shipping

Boron powder or dust: UN3178 Flammable solid, inorganic, Hazard Class: 4.1; Labels: 4.1—Flammable solid.

Structure and conformation

The space lattice of Boron belongs to the tetragonal system with lattice constants a=0.873 nm, c=1.013 nm (c=0.503 nm is also reported). The rhombohedron system is also formed. The rhombohedron is stable near the melting point.
Energy gap: Eg=1.0–1.5 eV
Activation energy : 1.39±0.05 eV
Electron mobility: μe=0.9 cm2 /V s (300 K, 1.8×1016 cm-3 )

Incompatibilities

Boron dust may form explosive mixture in air. Contact with strong oxidizers may cause explosions. Violent reaction (possible explosion) with concentrated nitric acid, hydrogen iodide; silver fluoride. Boron is incompatible with ammonia, bromine tetrafluoride, cesium carbide, chlorine, fluorine, interhalogens, iodic acid, lead dioxide, nitric acid, nitrosyl fluoride, nitrous oxide, potassium nitrite, rubidium carbide. Reacts exothermically with metals at high temperature above 900° C.

Waste Disposal

Dispose of contents and container to an approved waste disposal plant. All federal, state, and local environmental regulations must be observed.

Precautions

Elemental boron is non-toxic and common boron compounds, such as borates and boric acid, have low toxicity (approximately similar to table salt with the lethal dose being 2–3 g/kg) and do not require special precautions while handling. Some of the more exotic boron hydrogen compounds, however, are toxic as well as highly flammable and do require special care when handling

Boron Preparation Products And Raw materials

Raw materials

Tungsten wire, gold plated, 0.025mm (0.001in) dia, W 99.95% (metals basis), Au 99.99% Silica glass Sodium Aluminum Sodium tetraborate
Diborane Hydrogen Sulphur Sodium hydroxide Hydrogen fluoride
Boron trichloride
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Preparation Products

Compound fertilizer bomn,amorphous Boron tribromide Boron trichloride

Boron Suppliers

Global( 359)Suppliers
Supplier Tel Country ProdList Advantage Inquiry
J P Chemicals And Pharma +91-9558880174 +91-9825130814 Gujarat, India 19 58 Inquiry
Arihant Chemical Industries +91-9374361417 +91-7490001417 Gujarat, India 7 58 Inquiry
Gujarat State Fertilizers And Chemicals Ltd +91-2652242451 +91-9879275045 Gujarat, India 21 58 Inquiry
Kezi Industries (Sam Industries) +91-9426862414 +91-9825269675 Gujarat, India 34 58 Inquiry
Loba Chemie Pvt., Ltd. 91-22-66636663 Maharashtra, India 766 58 Inquiry
Ishita International 91-9766077696 Jharkhand, India 3 58 Inquiry
Suboneyo Chemicals Pharmaceuticals (P) Limited 91-257-2211754 Maharashtra, India 4 58 Inquiry
Advance Chemical sales corporation. (Exemplar) 91-11-48050000 Delhi, India 88 58 Inquiry
JP Chemicals And Pharma 91--9825130814 Gujarat, India 2 58 Inquiry
Gujarat State Fertilizers & Chemicals Ltd.(GSFC) 91-265-2242451 Gujarat, India 4 58 Inquiry
Supplier Advantage
J P Chemicals And Pharma 58
Arihant Chemical Industries 58
Gujarat State Fertilizers And Chemicals Ltd 58
Kezi Industries (Sam Industries) 58
Loba Chemie Pvt., Ltd. 58
Ishita International 58
Suboneyo Chemicals Pharmaceuticals (P) Limited 58
Advance Chemical sales corporation. (Exemplar) 58
JP Chemicals And Pharma 58
Gujarat State Fertilizers & Chemicals Ltd.(GSFC) 58

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BORON, PRACTICAL GRADE, AMORPHOUSPOWDER BORON POWDER SUBMICRON AMORPHOUS & BORON AMORPHOUS POWDER BORON CRYSTALLINE -325 MESH 90-95% BORON CRYSTALLINE -60 MESH 99% Boron, pieces, crystalline, <1cm, 99.7% metals basis BORON, CRYSTALLINE, PIECES BORON PIECES <6CM 99+% Boronpieces,crystalline,20mm(0.8in)&down,99.5%(metalsbasis) Boronpowder,amorphous,-325mesh,99%(metalsbasis) Boronpowder,crystalline,-325mesh,98%(metalsbasis) BORON POWDER, CRYSTALLINE, ELEC. GR. 99.9999% BORON CRYSTALLINE GRADE KT1 BORON CRYSTALLINE GRADE P1 Boronpowder,amorphous(95-97%) Boronpowder,amorphous(99+%) Boronpowder,crystalline(99.4%) Boronpowder,crystalline(99.99%) BORONFIBRES boron atomic absorption standard solution,1 mg/ml b in water B KR P1 BORON CRYSTALLINE GRADE P1 - A PRODUCT OF H.C. STARCK B AM III BORON AMORPHOUS GRADE III - A PRODUCT OF H.C. STARCK BORON POWDER, CRYSTALLINE: 99.5%, -60 MESH B KR KT1 BORON CRYSTALLINE GRADE KT1 - A PRODUCT OF H.C. STARCK B AM II BORON AMORPHOUS GRADE II - A PRODUCT OF H.C. STARCK B KR K2 BORON CRYSTALLINE GRADE K2 - A PRODUCT OF H.C. STARCK B AM I BORON AMORPHOUS GRADE I - A PRODUCT OF H.C. STARCK B KR K1 BORON CRYSTALLINE GRADE K1 - A PRODUCT OF H.C. STARCK Boron, Powder, Amorphous -325 Mesh 90% Boron powder, amorphous, -325 mesh, 90%, Mg nominal 5% Boron powder, crystalline, -4+40 mesh, Puratronic(R), 99.9999% (metals basis) Boron, plasma standard solution, Specpure(R), B 1000μg/ml boron atom BORONPOWDER,CRYSTALLINE Boron powder, crystalline (99.5%) Boron powder, crystalline, -4+40 mesh, Puratronic, 99.9999% (metals basis) Boron, amorphous powder -325 mesh 90% 3-(1-Methylethyl)-2,1,3-benzothiadiazin-4(3H)-one-13C6 2,2-Dioxide 3,4-Dihydro-3-isopropyl-1H-2,1,3-benzothiadiazin-4-one-13C6 2,2-Dioxide 3-Isopropyl-1H-2,1,3-benzothiadiazin-4(3H)-one-13C6 2,2-Dioxide Basagran 480-13C6 Basagran-13C6 Boron solution BORON POWDER LAB 10 G BORON ICP STANDARD TRACEABLE TO SRM FROM BORON POWDER LAB 25 G Boron 99.99% Boron pieces, crystalline, 1-30MM (0.039-1.2in), 99.4% (Metals basis) Boron >=95% (boron), aMorphous powder High Purity Boron powder B 005915 B 004500 B 004501 B 005910 Boron crystalline, 1 cm, 99.7% trace metals basis Boron, aMorphous, <1 Micron BERYLLIUM 10,000PPM FOR ICP Boron powder, crystalline and amorphous, -325 mesh, 99% trace metals basis