10,10-Dibromo-9,9-bianthryl

Names

[ Name ]:
10,10-Dibromo-9,9-bianthryl

[Synonym ]:
10,10'-bromo-9,9'-bianthryl
9,9'-Bianthracene,10,10'-dibromo
9,9'-Bianthracene, 10,10'-dibromo-
10,10-Dibromo-9,9-bianthryl
10,10'-Dibromo-9,9'-bianthracene
10,10'-dibromo-9,9'-bianthracenyl

Chemical & Physical Properties

[ Density]:
1.6±0.1 g/cm3

[ Boiling Point ]:
599.0±45.0 °C at 760 mmHg

[ Melting Point ]:
357-359ºC

[ Molecular Formula ]:
C₂₈H₁₆Br₂

[ Molecular Weight ]:
512.235

[ Flash Point ]:
361.4±28.0 °C

[ Exact Mass ]:
509.961853

[ LogP ]:
10.44

[ Vapour Pressure ]:
0.0±1.6 mmHg at 25°C

[ Index of Refraction ]:
1.794

Safety Information

[ Symbol ]:

GHS07

[ Signal Word ]:
Warning

[ Hazard Statements ]:
H315-H319-H335

[ Precautionary Statements ]:
P280-P304 + P340 + P312-P305 + P351 + P338-P337 + P313

[ RIDADR ]:
NONH for all modes of transport

Synthetic Route

Click to get detail synthetic route

Precursor & DownStream

Precursor

DownStream

Articles

Molecular bandgap engineering of bottom-up synthesized graphene nanoribbon heterojunctions.

Nat. Nanotechnol. 10(2) , 156-60, (2015)

Bandgap engineering is used to create semiconductor heterostructure devices that perform processes such as resonant tunnelling and solar energy conversion. However, the performance of such devices deg...

Bottom-up synthesis of chemically precise graphene nanoribbons.

Chem. Rec. 15(1) , 295-309, (2015)

In this article, we describe our chemical approach, developed over the course of a decade, towards the bottom-up synthesis of structurally well-defined graphene nanoribbons (GNRs). GNR synthesis can b...

Surface-Assisted Reactions toward Formation of Graphene Nanoribbons on Au(110) Surface. Lorenzo M, et al.

J. Phys. Chem. C Nanomater. Interfaces 119(5) , 2427-2437, (2015)

Related Compounds

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