Structure of 4,4'-Trimethylenedipyridine CAS 17252-51-6

Iden­ti­fi­ca­tion

CAS Number

17252-51-6

Name

4,4′-Trimethylenedipyridine

Syn­onyms

1,3-bis(4-pyridyl)-propane
1,3-bis(4-pyridyl)propane
1,3-Bis-(4-pyridyl)propane
1,3-Di(4-pyridyl)propane
1,3-di(pyridin-4-yl)propane
17252-51-6[RN]
241-284-8[EINECS]
4,4′-(1,3-Propandiyl)dipyridin[German]
[ACD/IUPAC Name]
4,4′-(1,3-Propanediyl)dipyridine[ACD/IUPAC Name]
4,4′-(1,3-Propanediyl)dipyridine[French][ACD/IUPAC Name]
4,4′-Propane-1,3-diyldipyridine
4,4′-trimethylene dipyri­dine
4,4′-Trimethylenedipyridine
4-[3-(pyridin-4-yl)propyl]pyridine
MFCD00038046
[MDL num­ber]
Pyri­dine, 4,4′- (1,3-propanediyl)bis-
Pyri­dine, 4,4′-(1,3-propanediyl)bis-[ACD/​Index Name]

SMILES

c1cc(CCCc2ccncc2)ccn1

Std­InChI

InChI=1S/C13H14N2/c1(2-12-4-8-14-9-5-12)3-13-6-10-15-11-7-13/h4-11H,1-3H2

Std­InChIKey

OGNCVVRIKNGJHQ-UHF­F­­FAOYSA-N

Mol­e­c­u­lar Formula

C13H14N2

Mol­e­c­u­lar Weight

198.269

EINECS

241-284-8

MDL Number

MFCD00038046

Prop­er­ties

Appear­ance

White to off-white or light yel­low crys­talline powder

Safe­ty Data

Sym­bol

exclamation-mark-jpgGHS07

Sig­nal Word

Warn­ing

Haz­ard statements

H302 + H312 + H332,H315,H319,H335

Pre­cau­tion­ary Statements

P261P280P301 + P312P302 + P352 + P312P304 + P340 + P312P305 + P351P338

Per­son­al Pro­tec­tive Equipment

dust mask type N95 (US), Eye­shields, Gloves

RIDADR 

NONH for all modes of transport

WGK Germany

3

Spec­i­fi­ca­tions and Oth­er Infor­ma­tion of Our 4,4′-Trimethylenedipyridine CAS 17252-51-6

Iden­ti­fi­ca­tion Methods

HNMR, HPLC

Puri­ty

98.5%min

Shelf Life

2 years

Stor­age

Under room tem­per­a­ture away from light

Known Appli­ca­tion

  • 1.Coordination chem­istry and met­al com­plex syn­the­sis
    Due to the pres­ence of two pyri­dine nitro­gen atoms, this com­pound is often used as a biden­tate lig­and to form sta­ble com­plex­es with tran­si­tion met­als (such as Ru, Ir, Pt, Pd, etc.).
  • 2.Photoelectric func­tion­al mate­ri­als
    In OLED, solar cells, pho­to­lu­mi­nes­cent and elec­tro­lu­mi­nes­cent mate­ri­als, it is used as an elec­tron trans­port lay­er or pho­to­sen­si­tive lig­and. Some met­al-organ­ic com­plex­es are based on this type of bipyri­dine deriv­a­tives for light-emit­t­ing devices.
  • 3.Metal-organic frame­works (MOFs) or coor­di­na­tion poly­mers
    Using its bridg­ing abil­i­ty, high-dimen­­sion­al MOF mate­ri­als can be con­struct­ed for func­tion­al mate­r­i­al design such as gas stor­age, catal­y­sis or separation.
  • 4.Molecular recog­ni­tion and self-assem­bly sys­tem
    In the field of supramol­e­c­u­lar chem­istry, this com­pound is often used as a build­ing block for self-assem­bly struc­ture and mol­e­c­u­lar device design.

Gen­er­al View of Documents

This prod­uct is devel­oped by our R&D com­pa­ny Wat­sonChem Advanced Chem­i­cal Mate­ri­als (https://​www​.wat​sonchem​.com/).

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