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Merck

926809

Sigma-Aldrich

1,4-Bis[4-(6-acryloyloxyhexyloxy)benzoyloxy]-2-methylbenzene

greener alternative

≥95%

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About This Item

Empirische Formel (Hill-System):
C39H44O10
CAS-Nummer:
Molekulargewicht:
672.76
MDL-Nummer:
UNSPSC-Code:
12352103
NACRES:
NA.21

Beschreibung

mesophase behaviour: Cr86N116I

Qualitätsniveau

Assay

≥95%

Form

solid

Grünere Alternativprodukt-Eigenschaften

Waste Prevention
Design for Energy Efficiency
Learn more about the Principles of Green Chemistry.

sustainability

Greener Alternative Product

Farbe

white

Grünere Alternativprodukt-Kategorie

InChI

1S/C39H44O10/c1-4-36(40)46-26-12-8-6-10-24-44-32-18-14-30(15-19-32)38(42)48-34-22-23-35(29(3)28-34)49-39(43)31-16-20-33(21-17-31)45-25-11-7-9-13-27-47-37(41)5-2/h4-5,14-23,28H,1-2,6-13,24-27H2,3H3

InChIKey

FQCKIWWAEIOPSD-UHFFFAOYSA-N

Allgemeine Beschreibung

We are committed to bringing you Greener Alternative Products, which adhere to one or more of The 12 Principles of Greener Chemistry. This product belongs to enabling category of greener alternatives and has been enhanced for energy efficiency. 4D printing basically produces zero waste. It holds the promise in the fight against climate change and manufacturing waste. Click here  for more information.

Anwendung

1,4-Bis[4-(6-acryloyloxyhexyloxy)benzoyloxy]-2-methylbenzene (RM82) is a known precursor for liquid crystal elastomer (LCEs) inks that can be direct-write printed into 3D structures capable of reversible changes in shape, i.e., four-dimensional-printed (4DP) structures . LCE actuators (LCEAs) using RM82 showed both thermal , photo and chemical responsiveness, which may enable new generations of soft robotics , implantable medical devices and dynamic functional arquitecture, such as photoswitches . RM82 has also been used to create the mesogenic order in liquid crystalline vitrimers, allowing postpolymerization processing, while also minimizing unwanted creep during actuation.
This product can be used in Material Jetting or Vat polymerization 3D printing techniques.

Piktogramme

Exclamation mark

Signalwort

Warning

H-Sätze

Gefahreneinstufungen

Skin Sens. 1

Lagerklassenschlüssel

13 - Non Combustible Solids

WGK

WGK 1

Flammpunkt (°F)

Not applicable

Flammpunkt (°C)

Not applicable


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Die Dokumentenbibliothek aufrufen

Anne Helene Gelebart et al.
Nature, 546(7660), 632-636 (2017-06-29)
Oscillating materials that adapt their shapes in response to external stimuli are of interest for emerging applications in medicine and robotics. For example, liquid-crystal networks can be programmed to undergo stimulus-induced deformations in various geometries, including in response to light.
Cedric P Ambulo et al.
ACS applied materials & interfaces, 9(42), 37332-37339 (2017-10-03)
Three-dimensional structures capable of reversible changes in shape, i.e., four-dimensional-printed structures, may enable new generations of soft robotics, implantable medical devices, and consumer products. Here, thermally responsive liquid crystal elastomers (LCEs) are direct-write printed into 3D structures with a controlled
Shape changes in chemoresponsive liquid crystal elastomers.
Boothby J, et al.
Sensors and Actuators B, Chemical, 240, 511-518 (2017)
Alexander Ryabchun et al.
Journal of the American Chemical Society, 141(3), 1196-1200 (2019-01-10)
Interfacing molecular photoswitches with liquid crystal polymers enables the amplification of their nanoscale motion into macroscopic shape transformations. Typically, the mechanism responsible for actuation involves light-induced molecular disorder. Here, we demonstrate that bistable hydrazones can drive (chiral) shape transformations in
María López-Valdeolivas et al.
Macromolecular rapid communications, 39(5) (2017-12-07)
Soft matter elements undergoing programed, reversible shape change can contribute to fundamental advance in areas such as optics, medicine, microfluidics, and robotics. Crosslinked liquid crystalline polymers have demonstrated huge potential to implement soft responsive elements; however, the complexity and size

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