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52650

Sigma-Aldrich

Hexamethylene diisocyanate

purum, ≥98.0% (GC)

Sinónimos:

1,6-Diisocyanatohexane

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About This Item

Fórmula lineal:
OCN(CH2)6NCO
Número de CAS:
822-06-0
Peso molecular:
168.19
Beilstein:
956709
Número CE:
212-485-8
Número MDL:
MFCD00002047
Código UNSPSC:
12162002
ID de la sustancia en PubChem:
329757867
NACRES:
NA.23

grado

purum

Nivel de calidad

200

Análisis

≥98.0% (GC)

índice de refracción

n20/D 1.453

bp

82-85 °C/0.1 mmHg

densidad

1.047 g/mL at 20 °C (lit.)

cadena SMILES

O=C=NCCCCCCN=C=O

InChI

1S/C8H12N2O2/c11-7-9-5-3-1-2-4-6-10-8-12/h1-6H2

Clave InChI

RRAMGCGOFNQTLD-UHFFFAOYSA-N

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Categorías relacionadas

Descripción general

Hexamethylene diisocyanate (HDI) is an aliphatic diisocyanate monomer belonging to the class of isocyanates. It is primarily used in the production of polyurethanes. The isocyanate functional groups in hexamethylene diisocyanate react readily with polyols to form polyurethane polymers. Polyurethanes derived from HDI are commonly used in various products, including coatings, adhesives, sealants, elastomers, foams, thin-film transistors, flexible or rigid plastics, biomedical applications, electronics and aerospace industries. It is also used to produce oligomers and prepolymers that when combined with a polyol produce light-stable polyurethane.

Aplicación

Hexamethylene diisocyanate (HDI) is used as:
  • A crosslinker to crosslink the polyurethane chains in the triblock copolymer gate dielectric, which is then deposited on the substrate to fabricate low-voltage organic thin-film transistors.
  • A precursor in the preparation of electroactive shape memory polyurethane/graphene nanocomposites. These materials are usually used as actuators, sensors, artificial muscles, smart devices, and microswitches.
  • A crosslinker in conjunction with Pluronic F127, a nonionic surfactant, to synthesize a poly(lactic acid) (PLA)-based hydrogel for biomedical applications.
Highly reactive 1,6-hexamethylene diisocyanate (HMDI) was used to synthesize lactic acid polymers from oligomers by the addition of 2,2′-bis(2-oxazoline) (BOX) as chain extenders. Self-healing ability was rendered to polyurethane elastomer by synthesizing alkoxyamine-based diol and reacting it with tri-functional homopolymer of HMDI and polyethylene glycol (PEG). Plastic optical fiber (POF) was prepared by the bulk homopolymerization of HMDI catalyzed by Tin(II)-2 ethylhexanoate (SnOct).

Palabra de señalización

Danger

Clasificaciones de peligro

Acute Tox. 1 Inhalation - Acute Tox. 4 Oral - Eye Dam. 1 - Resp. Sens. 1 - Skin Corr. 1C - Skin Sens. 1 - STOT SE 3

Órganos de actuación

Respiratory system

Código de clase de almacenamiento

6.1A - Combustible acute toxic Cat. 1 and 2 / very toxic hazardous materials

Clase de riesgo para el agua (WGK)

WGK 1

Punto de inflamabilidad (°F)

266.0 °F - Pensky-Martens closed cup

Punto de inflamabilidad (°C)

130 °C - Pensky-Martens closed cup

Equipo de protección personal

Eyeshields, Faceshields, Gloves, type ABEK (EN14387) respirator filter

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Certificados de análisis (COA)

Lot/Batch Number
BCCM5333
BCCL9311
BCCK4383
BCCL0062
BCCH7191

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Poly (lactic acid) based hydrogels
Basu A, et al.
Advanced Drug Delivery Reviews, 107, 192-205 (2016)
Self-healing polyurethane elastomer with thermally reversible alkoxyamines as crosslinkages
Yuan C, et al.
Polymer, 55(7), 1782-17971 (2014)
Preparation of electroactive shape memory polyurethane/graphene nanocomposites and investigation of relationship between rheology, morphology and electrical properties
Sofla RLM, et al.
Composites Part B: Engineering, 175, 107090-107090 (2019)
Chain extending of lactic acid oligomers. 2. Increase of molecular weight with 1,6-hexamethylene diisocyanate and 2,2'-bis(2-oxazoline)
Tuominen J, et al.
Polymer, 43(1), 3-10 (2002)
Polyurethane triblock copolymer gate dielectrics for low-voltage organic thin-film transistors
K Dongkyu, et al.
Journal of Industrial and Engineering Chemistry, 71, 460-464 (2019)
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