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1,3-Diisopropenylbenzene (CAS 3748-13-8) - chemical structure image
Molecular structure of 1,3-Diisopropenylbenzene, CAS Number: 3748-13-8
1,3-Diisopropenylbenzene (CAS 3748-13-8) - chemical structure image
Molecular structure of 1,3-Diisopropenylbenzene, CAS Number: 3748-13-8
Molecular structure of 1,3-Diisopropenylbenzene, CAS Number: 3748-13-8

1,3-Diisopropenylbenzene (CAS 3748-13-8)

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CAS Number:
3748-13-8
Molecular Weight:
158.24
Molecular Formula:
C12H14
Supplemental Information:
This is classified as a Dangerous Good for transport and may be subject to additional shipping charges.
For Research Use Only. Not Intended for Diagnostic or Therapeutic Use.
* Refer to Certificate of Analysis for lot specific data.

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SDS & Certificate of Analysis

1,3-Diisopropenylbenzene is a chemical compound that is studied within industrial and polymer chemistry. It serves as a monomer in the synthesis of polymers and copolymers, where its vinyl groups can undergo free radical polymerization, resulting in materials with various properties. The compound is frequently used in research that explores the development of new polymeric materials with potential applications in coatings, adhesives, and elastomers. 1,3-Diisopropenylbenzene is also of interest in the study of cross-linking agents, where its ability to form bridges between polymer chains can enhance the strength and thermal stability of the resulting material. Additionally, its structure and reactivity make it a subject of investigations into the kinetics and mechanisms of polymerization reactions, which are for controlling the properties of synthesized polymers. Researchers also use this compound to understand the effects of substituent placement on the physical and chemical behavior of vinyl benzene derivatives.


1,3-Diisopropenylbenzene (CAS 3748-13-8) References

  1. New infrared transmitting material via inverse vulcanization of elemental sulfur to prepare high refractive index polymers.  |  Griebel, JJ., et al. 2014. Adv Mater. 26: 3014-8. PMID: 24659231
  2. Analytical Multimode Scanning and Transmission Electron Imaging and Tomography of Multiscale Structural Architectures of Sulfur Copolymer-Based Composite Cathodes for Next-Generation High-Energy Density Li-S Batteries.  |  Oleshko, VP., et al. 2016. Microsc Microanal. 22: 1198-1221. PMID: 27881211
  3. Mechanical and Electrical Properties of Sulfur-Containing Polymeric Materials Prepared via Inverse Vulcanization.  |  Diez, S., et al. 2017. Polymers (Basel). 9: PMID: 30970741
  4. Amphiphilic Triblock Copolymers Containing Polypropylene as the Middle Block.  |  Yan, T. and Guironnet, D. 2020. Angew Chem Int Ed Engl. 59: 22983-22988. PMID: 32840964
  5. Enabling Superior Thermo-Oxidative Resistance Elastomers Based on a Structure Recovery Strategy.  |  Chen, X., et al. 2021. Macromol Rapid Commun. 42: e2000762. PMID: 33723875
  6. Block Copolymers from Organomodified Siloxane-Containing Macroinitiators by Atom Transfer Radical Polymerization  |  Christine Strissel, Krzysztof Matyjaszewski, Oskar Nuyken. 2003. 204: 1169-1177.
  7. Enantioselective Carbonyl-Ene Reactions of Arylglyoxals with a Chiral Palladium(II)-BINAP Catalyst  |  He-Kuan Luo, Lim Bee Khim, Herbert Schumann, Christina Lim, Tan Xiang Jie, Hai-Yan Yang. 2007. 349: 1781-1795.
  8. Improvement of homogeneity and interfacial properties of radiation grafted membranes for fuel cells using diisopropenylbenzene crosslinker  |  H. Ben youcef, Lorenz Gubler, Annette Foelske-Schmitz, Günther G. Scherer. 2011. Journal of Membrane Science. 381: 102-109.
  9. Aqueous biphasic hydrogenations catalyzed by new biogenerated Pd-polysaccharide species  |  Stefano Paganelli a, Oreste Piccolo b, Franco Baldi a, Riccardo Tassini a, Michele Gallo a, Giorgio La Sorella a. 2013. Applied Catalysis A: General. 451: 144-152.
  10. Cross-Linked Sulfur–Selenium Polymers as Hole-Transporting Materials in Dye-Sensitized Solar Cells and Perovskite Solar Cells  |  Peng Liu, Prof. Lars Kloo, Dr. James M. Gardner. 2017. 1: 363-368.
  11. Solution-based Sulfur-Polymer Coating on Nanofibrillar Films for Immobilization of Aqueous Mercury Ions  |  Jaehyuk Lee, Seyeong Lee, Jihee Kim, Zahid Hanif, Seunghee Han, Sukwon Hong, Myung-Han Yoon. 2018. 39: 84-89.
  12. Compatibility driven self-strengthening during the radical-responsive remolding process of poly-isoprene vitrimers  |  Fangwei Ling,a Zhenwei Liu,a Mokun Chen,a Hao Wang,a Yong Zhu,a Changshu Ma,a Jinrong Wu *a and Guangsu Huang*a . 2019. J. Mater. Chem. A. 7: 25324-25332.
  13. Synthesis of high-vinyl isoprene and styrene triblock copolymers via anionic polymerization with difunctional t-BuLi initiator  |  Pin-Chen Lee a, Cheng-Chien Wang b, Chuh-Yung Chen a. 2020. European Polymer Journal. 124: 109476.

Ordering Information

Product NameCatalog #UNITPriceQtyFAVORITES

1,3-Diisopropenylbenzene, 25 ml

sc-485655
25 ml
$44.00

1,3-Diisopropenylbenzene, 500 ml

sc-485655A
500 ml
$166.00
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