What is the LANTHANUM BORIDE?

LANTHANUM BORIDE is white powder / granules, while it's Molecular Formula is B 6 La. white powder / granules Lanthanum boride is employed in hot cathodes, which enact and includes electron microscopes, microwave tubes, electron lithography, electron beam welding, X-ray tubes, and free electron lasers. It is administered as a size or strain standard in X-ray powder diffraction to calibrate instrumental broadening of diffraction peaks. It exercises as a superconductor. It has a great potential as a thermionic emitter in renewable energy applications. It is widely used in teleran, electronic industry, instrument, medical equipment, metallurgy and enviromental protection.

What is the CAS number for LANTHANUM BORIDE?

The CAS number of LANTHANUM BORIDE is 12008-21-8.

What is LANTHANUM BORIDE (12008-21-8) used for?

Lanthanum Boride, also known as LaB6, is a very dark blue powder with unique chemical and physical properties. It is a compound of lanthanum, a rare earth element, and boron. Lanthanum Boride is highly valued for its exceptional electronic and thermal conductivity, making it a crucial material in various industrial applications.InChI:InChI=1/B6.La/c1-2-5(1)3-4(5)6(1,2)3;/q-2;+2

What is the LANTHANUM BORIDE?

LANTHANUM BORIDE is white powder / granules, while it's Molecular Formula is B 6 La. white powder / granules Lanthanum boride is employed in hot cathodes, which enact and includes electron microscopes, microwave tubes, electron lithography, electron beam welding, X-ray tubes, and free electron lasers. It is administered as a size or strain standard in X-ray powder diffraction to calibrate instrumental broadening of diffraction peaks. It exercises as a superconductor. It has a great potential as a thermionic emitter in renewable energy applications. It is widely used in teleran, electronic industry, instrument, medical equipment, metallurgy and enviromental protection.

What is the CAS number for LANTHANUM BORIDE?

The CAS number of LANTHANUM BORIDE is 12008-21-8.

What is LANTHANUM BORIDE (12008-21-8) used for?

Lanthanum Boride, also known as LaB6, is a very dark blue powder with unique chemical and physical properties. It is a compound of lanthanum, a rare earth element, and boron. Lanthanum Boride is highly valued for its exceptional electronic and thermal conductivity, making it a crucial material in various industrial applications.InChI:InChI=1/B6.La/c1-2-5(1)3-4(5)6(1,2)3;/q-2;+2

12008-21-8

Product Name:Lanthanum boride
Molecular Formula:B₆La
Molecular Weight:203.772

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Product Details

Detail

Cas No： 12008-21-8
Molecular Formula： B₆La
Appearance： white powder / granules
Purity： 99%

Product Name	LANTHANUM BORIDE
Alias
English
Molecular formula	LaB6
Molecular weight	203.77
CAS No	12008-21-8
EINECS
Specification	99.0%，99.5%
Appearance traits	Purple to dark purple powder
Use	In the military, as well as many high-tech areas have a wide range of uses, can be used in radar, aerospace, electronics industry, instrumentation, medical equipment, household appliances, metallurgy and other industries. Among them, lanthanum boride crystals is making high power electron tubes, magnetrons, electron beam, ion beam, the best material for cathode accelerator.
Package	Vacuum packaging 100g, 500g, 1kg / bottle
Other product information	Physical and chemical properties: Purple to dark purple powder

Factory supply Lanthanum boride 12008-21-8 (LaB6) with low price

Molecular Formula:B₆La
Molecular Weight:203.772
Appearance/Colour:white powder / granules
Melting Point:2530°C
PSA：0.00000
Density:4.76 g/mL at 20 °C
LogP:-2.28480

LANTHANUM BORIDE(Cas 12008-21-8) Usage

InChI:InChI=1/B6.La/c1-2-5(1)3-4(5)6(1,2)3;/q-2;+2

Our main markets are China, the United States, Europe, Korea, and Japan. The main business scope includes electronic chemicals, liquid crystal intermediates, high-purity metal compounds, pharmaceutical intermediates, special chemicals, and so on.

12008-21-8 Relevant articles

The effect of Sm-doping on optical properties of LaB6 nanoparticles

Chao, Luomeng,Bao, Lihong,Shi, Junjie,Wei, Wei,Tegus,Zhang, Zhidong

, p. 618 - 621 (2015)

Nanocrystalline particles of LaB6, SmB6 ...

Unique preparation of hexaboride nanocubes: A first example of boride formation by combustion synthesis

Kanakala, Raghunath,Rojas-George, Gabriel,Graeve, Olivia A.

, p. 3136 - 3141 (2010)

Nanocubes of LaB6 and Sm0.8B6 have been ...

Peculiarities of electronic, phonon and magnon subsystems of lanthanum and samarium tetraborides

Novikov,Mitroshenkov,Matovnikov

, p. 906 - 911 (2015)

Abstract Experimental research was carri...

Low temperature carbothermal and boron carbide reduction synthesis of LaB6

Hasan, Muhammad,Sugo, Heber,Kisi, Erich

, p. 176 - 182 (2013)

Rare-earth hexaborides are widely used a...

A solvothermal approach for the preparation of nanostructured carbide and boride ultra-high-temperature ceramics

Kelly, James P.,Kanakala, Raghunath,Graeve, Olivia A.

, p. 3035 - 3038 (2010)

The use of a solvothermal process for th...

Phonon structure of LaB6 by point-contact spectroscopy

Kunii, Satoru

, p. 361 - 366 (1988)

The differential resistance dV/dI versus...

A low-temperature route for the synthesis of nanocrystalline LaB6

Zhang, Maofeng,Yuan, Liang,Wang, Xiaoqing,Fan, Hai,Wang, Xuyang,Wu, Xueying,Wang, Haizhen,Qian, Yitai

, p. 294 - 297 (2008)

Nanocrystalline lanthanum hexaboride (La...

Low-temperature synthesis of nanosized metal borides through reaction of lithium borohydride with metal hydroxides or oxides

Pan, Wei Yuan,Bao, Qian Wen,Mao, Yang Jun,Liu, Bin Hong,Li, Zhou Peng

, p. 666 - 672 (2015)

In this study, we report a novel and fac...

Development of chemically synthesized spherical plasmonic LaB6 nanoparticles for biomedical applications

Wang, Yu,Fang, Chao,Li, Xiang,Li, Zhou Peng,Liu, Bin Hong

, p. 757 - 767 (2019)

LaB6 is a unique plasmonic material, for...

Single-crystalline LaB6 nanowires

Zhang, Han,Zhang, Qi,Tang, Jie,Qin, Lu-Chang

, p. 2862 - 2863 (2005)

Lanthanum hexaboride nanowires produced ...

Fabrication and characterization of ZrB2-based ceramic using synthesized ZrB2-LaB6 powder

Spring, Alex,Guo, Wei-Ming,Zhang, Guo-Jun,Wang, Pei-Ling,Krstic, Vladimir D.

, p. 2763 - 2765 (2008)

ZrB2-LaB6 powder was obtained by reactiv...

Origin of ground state anomaly in LaB6 at low temperatures

Medicherla,Patil, Swapnil,Singh, Ravi Shankar,Maiti, Kalobaran

, (2007)

The authors investigate the temperature ...

Low temperature synthesis of low thermionic work function (LaxBa1-x)B6

Hasan,Cuskelly,Sugo,Kisi

, p. 67 - 72 (2015)

This study presents investigations of th...

Low temperature synthesis and characterization of pure lanthanum hexaboride nanocrystals

Simsek, Tuncay,Chattopadhyay, Arun K.,Baris, Mustafa,Bilen, Murat

, p. 238 - 243 (2019)

This study aims to synthesize very pure ...

The preparation and composition design of boron-rich lanthanum hexaboride target for sputtering

Chen, Defang,Min, Guanghui,Wu, Yan,Yu, Huashun,Zhang, Lin

, p. 380 - 386 (2015)

Lanthanum Hexaboride (LaB6) nano-film ha...

Chemical vapor deposition of metal borides 7. The relatively low temperature formation of crystalline lanthanum hexaboride thin films from boron hydride cluster compounds by chemical vapor deposition

Kher,Spencer

, p. 1343 - 1351 (1998)

The chemical vapor deposition (CVD) of h...

Self-catalyst growth of LaB6 nanowires and nanotubes

Xu, Junqi,Zhao, Yanming,Zou, Chunyun

, p. 138 - 142 (2006)

LaB6 nanowires have been successfully fa...

Preparations of lanthanum hexaboride (LaB6) and cerium hexaboride (CeB6)

Wang, Yu,Chou, Kuo-Chih,Zhang, Guo-Hua

, p. 1954 - 1966 (2021/11/24)

Due to strong anti-poisoning ability, go...

Structural, magnetic, and thermionic emission properties of multi-functional La1-xCaxB6 hexaboride

Bao, Lihong,Qi, Xiaoping,Bao, Tana,Tegus

, p. 332 - 338 (2017/10/17)

Herein, we report the synthesis of nanoc...

12008-21-8 Process route

: lithium borohydride

: 13709-38-1
lanthanum(III) fluoride

: 12008-21-8
lanthanum hexaboride

: 1333-74-0
hydrogen

: 19287-45-7
diborane

Conditions

Conditions	Yield
In neat (no solvent); byproducts: LiF, LaH2; (LiBH4+1/3LaF3) mixt. (ball milled for 1-48 h) evacuated to 1E-3 Torr, heated at rate 2°C/min from room temp. to 450-600°C; DSC-TG-MS, XRD;

: lithium borohydride

: 10099-58-8
lanthanum(III) chloride

: 12008-21-8
lanthanum hexaboride

: 1333-74-0
hydrogen

: 19287-45-7
diborane