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Boron Oxide Nanoparticle Dispersion

Boron Oxide Nanodispersion

CAS #:

Linear Formula:


MDL Number:


EC No.:



(2N) 99% Boron Oxide Nanoparticle Dispersion
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Boron Oxide Nanoparticle Dispersion Properties

Compound Formula


Molecular Weight



Liquid dispersion

Melting Point

Varies by solvent

Boiling Point

Varies by solvent


Varies by solvent

Exact Mass


Monoisotopic Mass

70.003356 Da

Boron Oxide Nanoparticle Dispersion Health & Safety Information

Signal Word Danger
Hazard Statements N/A
Hazard Codes H360FD
Precautionary Statements P201-P202-P280-P308+P313-P405
Risk Codes 36/37/38
Safety Statements 26-36
Transport Information NONH
WGK Germany 3
GHS Pictograms

About Boron Oxide Nanoparticle Dispersion

Boron Oxide Nanoparticle Dispersions are suspensions of boron oxide nanoparticles in water or various organic solvents such as ethanol or mineral oil. American Elements manufactures oxide nanopowders and nanoparticles with typical particle sizes ranging from 10 to 200nm and in coated and surface functionalized forms. Our nanodispersion and nanofluid experts can provide technical guidance for selecting the most appropriate particle size, solvent, and coating material for a given application. We can also produce custom nanomaterials tailored to the specific requirements of our customers upon request.

Boron Oxide Nanoparticle Dispersion Synonyms

Boric anhydride, Boric oxide, Keto-ketaboranyloxy-borane, Diboron trioxide, Boron trioxide, Dioxodiboroxane, Boron anhydride, borane, 1,1'-oxybis[1-oxo, Oxo-oxoboranyloxy-borane

Boron Oxide Nanoparticle Dispersion Chemical Identifiers

Linear Formula


Pubchem CID


MDL Number


EC No.


Beilstein Registry No.






InchI Identifier


InchI Key


Packaging Specifications

Typical bulk packaging includes palletized plastic 5 gallon/25 kg. pails, fiber and steel drums to 1 ton super sacks in full container (FCL) or truck load (T/L) quantities. Research and sample quantities and hygroscopic, oxidizing or other air sensitive materials may be packaged under argon or vacuum. Shipping documentation includes a Certificate of Analysis and Safety Data Sheet (SDS). Solutions are packaged in polypropylene, plastic or glass jars up to palletized 440 gallon liquid totes, and 36,000 lb. tanker trucks.

Related Elements

See more Boron products. Boron Bohr ModelBoron (atomic symbol: B, atomic number: 5) is a Block P, Group 13, Period 2 element with an atomic weight of 10.81. The number of electrons in each of boron's shells is 2, 3 and its electron configuration is [He] 2s2 2p1. The boron atom has a radius of 90 pm and a Van der Waals radius of 192 pm. Boron was discovered by Joseph Louis Gay-Lussac and Louis Jacques Thénard in 1808. It was first isolated by Humphry Davy, also in 1808. Boron is classified as a metalloid is not found naturally on earth. Elemental BoronAlong with carbon and nitrogen, boron is one of the few elements in the periodic table known to form stable compounds featuring triple bonds. Boron has an energy band gap of 1.50 to 1.56 eV, which is higher than that of either silicon or germanium. Boron is found in borates, borax, boric acid, colemanite, kernite, and ulexite.The name Boron originates from a combination of carbon and the Arabic word buraqu meaning borax.

Recent Research

Boron monoxide dimer as a building block for boroxine based buckyballs and related cages: a theoretical study., Liu, Y, Liu C, Pu L, Zhang Z, and King R B. , Chem Commun (Camb), 2017 Mar 14, Volume 53, Issue 22, p.3239-3241, (2017)

Nitrogen-doped graphene oxide for effectively removing boron ions from seawater., Chen, Fuming, Guo Lu, Zhang Xiaoming, Leong Zhi Yi, Yang Shengyuan, and Yang Hui Ying , Nanoscale, 2017 Jan 07, Volume 9, Issue 1, p.326-333, (2017)

Ambient Carbon Dioxide Capture Using Boron-Rich Porous Boron Nitride: A Theoretical Study., Li, Lanlan, Liu Yan, Yang Xiaojing, Yu Xiaofei, Fang Yi, Li Qiaoling, Jin Peng, and Tang Chengchun , ACS Appl Mater Interfaces, 2017 Apr 11, (2017)

Hybrids of Reduced Graphene Oxide and Hexagonal Boron Nitride: Lightweight Absorbers with Tunable and Highly Efficient Microwave Attenuation Properties., Kang, Yue, Jiang Zhenhua, Ma Tian, Chu Zengyong, and Li Gong-Yi , ACS Appl Mater Interfaces, 2016 Nov 3, (2016)

Effective performance for undoped and boron-doped double-layered nanoparticles-copper telluride and manganese telluride on tungsten oxide photoelectrodes for solar cell devices., Srathongluan, Pornpimol, Vailikhit Veeramol, Teesetsopon Pichanan, Choopun Supab, and Tubtimtae Auttasit , J Colloid Interface Sci, 2016 Nov 1, Volume 481, p.57-68, (2016)

Effect of Variable Oxidation States of Vanadium on Structural, Optical and Dielectric Properties of B2O3-Li2O-ZnO-V2O5 Glasses., Arya, Sunil Kumar, Danewalia Satwinder Singh, Arora Manju, and Singh Kulvir , J Phys Chem B, 2016 Nov 1, (2016)

Dielectric Engineering of a Boron Nitride/Hafnium Oxide Heterostructure for High-Performance 2D Field Effect Transistors., Zou, Xuming, Huang Chun-Wei, Wang Lifeng, Yin Long-Jing, Li Wenqing, Wang Jingli, Wu Bin, Liu Yunqi, Yao Qian, Jiang Changzhong, et al. , Adv Mater, 2016 Mar, Volume 28, Issue 10, p.2062-9, (2016)

Cytocompatibility, mechanical and dissolution properties of high strength boron and iron oxide phosphate glass fibre reinforced bioresorbable composites., Sharmin, Nusrat, Hasan Muhammad S., Parsons Andrew J., Rudd Chris D., and Ahmed Ifty , J Mech Behav Biomed Mater, 2016 Jun, Volume 59, p.41-56, (2016)

Optical properties of Lead bismuth borate glasses doped with neodymium oxide., Farouk, M, A El-Maboud Abd, Ibrahim M, Ratep A, and Kashif I , Spectrochim Acta A Mol Biomol Spectrosc, 2015 Oct 5, Volume 149, p.338-42, (2015)


June 23, 2017
Los Angeles, CA
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