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Synchrotron radiations shed light on formation mechanism of aromatic polyimide precursor

Date:
May 21, 2018
Source:
Tokyo University of Agriculture and Technology
Summary:
A mechanism for an industrially used catalysis of an aromatic polyimide precursor is now revealed by use of synchrotron radiations. This finding is of service to the more economical production of an aromatic polyimide by further development of catalysts.
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Aromatic polyimide is one of the most thermal- and chemical-resistant polymers with high mechanical strength, which is widely used for electrical insulation materials and aerospace materials. One of the major polyimides is made from tetramethyl biphenyltetracarboxylate, which is prepared by dehydrogenative coupling of dimethyl phthalate catalyzed by conventional [Pd(OAc)2]/[Cu(OAc)2]/1,10-phenanthroline (phen) system. However, the product yield is normally less than 10%. Nevertheless, this process is used for the industrial production. The mechanism had remained largely unknown because the process needed harsh conditions (over 200 degrees Celsius), cross-linked catalyses using Pd and Cu complexes, and very diluted catalyst conditions.

Synchrotron radiations now shed light on the mechanism. A joint team of TUAT, Osaka university and Kyoto University, first focused on the potential intermediates such as [Pd(OAc){C6H3(CO2Me)2}(phen)] based on the widely believed catalytic cycle and they prepared them by independent reactions. Some stoichiometric reactions using the intermediates suggested the formation of tetramethyl biphenyltetracarboxylate, the product, by subsequence of disproportionation giving Pd{C6H3(CO2Me)2}2(phen) and the reductive elimination. They confirmed these potential intermediates worked as the catalysts and the turn over numbers (TONs) reached to 91. They also used Pd K-edge (24.357 keV) XANES and EXAFS measurements using the synchrotron radiations of SPring-8 BL01B1 at Japan Synchrotron Radiation Research Institution. They found that an in situ catalyst solution in dimethyl phthalate starting from [Pd(OAc)2]/[Cu(OAc)2]/phen converted into [Pd(OAc){C6H3(CO2Me)2}(phen)] by the XAFS study. This new methodology and results have been published in the ACS Catalysis.

"This process has been used for an industrial production of an aromatic polyimide precursor, despite of the low catalytic efficiency. This is an awesome process originally found by industrial researchers for production of the precursor because of high atom efficiency and direct access from readily available dimethyl phthalate. Our results are surely service to the further development on the catalysts, that leads to the more economical production of the polyimide. Although some pioneering groups have studied the related catalyses, we are glad to contribute some" said Masafumi Hirano, a TUAT professor of chemistry and a principal of the study.

The current scope is, however, limited to the Pd catalyst side. Although the detailed study on the Cu catalyst is more difficult, this is the way to the perfect understanding of this catalysis.

"The in situ solution XAFS analysis of homogeneous catalyses is still difficult but our team works well in all stages in organometallic chemistry, catalytic chemistry and the XAFS study. I appreciate diversity of the team members with different back ground in chemistry," said Masafumi.


Story Source:

Materials provided by Tokyo University of Agriculture and Technology. Note: Content may be edited for style and length.


Journal Reference:

  1. Masafumi Hirano, Kosuke Sano, Yuki Kanazawa, Nobuyuki Komine, Zen Maeno, Takato Mitsudome, Hikaru Takaya. Mechanistic Insights on Pd/Cu-Catalyzed Dehydrogenative Coupling of Dimethyl Phthalate. ACS Catalysis, 2018; DOI: 10.1021/acscatal.8b01095

Cite This Page:

Tokyo University of Agriculture and Technology. "Synchrotron radiations shed light on formation mechanism of aromatic polyimide precursor." ScienceDaily. ScienceDaily, 21 May 2018. <www.sciencedaily.com/releases/2018/05/180521092707.htm>.
Tokyo University of Agriculture and Technology. (2018, May 21). Synchrotron radiations shed light on formation mechanism of aromatic polyimide precursor. ScienceDaily. Retrieved December 21, 2024 from www.sciencedaily.com/releases/2018/05/180521092707.htm
Tokyo University of Agriculture and Technology. "Synchrotron radiations shed light on formation mechanism of aromatic polyimide precursor." ScienceDaily. www.sciencedaily.com/releases/2018/05/180521092707.htm (accessed December 21, 2024).

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