Tokyo University of Science


2024.05.23 Thursday

Unlocking Complex Sulfur Molecules: A Novel Approach for Synthesis of Functionalized Benzenethiol Equivalents

Scientists develop a novel synthesis method for o-bromobenzenethiol equivalents from readily available aryne intermediates

Unlocking Complex Sulfur Molecules: A Novel Approach for Synthesis of Functionalized Benzenethiol Equivalents

Organosulfur compounds, organic compounds containing sulfur, are vital in biological processes and research fields like pharmaceuticals, biomedical imaging, agriculture, and electronics. Compounds like phenothiazine, thianthrene and thienothiophene, containing organosulfur skeletons, play pivotal roles in these domains. Multiple methods have been developed that use o-bromobenzenethiols as the key component to synthesize these compounds. This is mainly owing to the high reactivities of the thiol (sulfur atom bonded to a hydrogen atom) and bromine moieties of o-bromobenzenethiols, compounds which contain a bromine atom attached to positions one or two (ortho position) in a benzene ring next to a sulfur atom.

Conventional methods to produce o-bromobenzenethiols involve addition of bromine to aniline, then using diazonium intermediates for addition of sulfur. This process poses challenges including selective addition of bromine at the ortho position, difficulty working with certain chemical groups, and the tendency of o-bromobenzenethiols to oxidize easily in air releasing unpleasant odors.

Recently, scientists have found a new method with great potential to synthesize various complex aromatic compounds by selectively adding molecules on aryne intermediates. However, despite this success, creating o-bromobenzenethiols by adding a bromine molecule and a thiol group to these intermediates has been tough. This is because the sulfur-containing compounds react strongly with the aryne molecules, making it hard to control the process.

To tackle this challenge, Associate Professor Suguru Yoshida and Mr. Shinya Tabata, from the Department of Biological Science and Technology, Faculty of Advanced Engineering at Tokyo University of Science, have developed a new method. Prof. Yoshida explains, "We developed a method for synthesizing stable o-bromobenzenethiol equivalents by bromothiolation of aryne intermediates with an appropriate hydrogen sulfide equivalent and an electrophilic brominating reagent, resulting in controlled reactivity at the sulfur atom which prevents subsequent additions with aryne intermediates." Their findings were made available online on 30 April, 2024 and published in Volume 26, Issue 18 of the journal Organic Letters on May 10, 2024.

The researchers utilized potassium xanthate instead of hydrogen sulfide, owing to its better reactivity in aryne reactions and pentafluorophenyl bromide as an electrophilic brominating reagent. This combination allowed them to efficiently produce complex o-bromobenzenethiol equivalents called aryl xanthates. Notably, this method demonstrated good tolerance for various chemical groups and prevented the formation of unwanted products. Using aryl xanthates, the researchers prepared diverse highly functionalized organosulfur compounds, such as phenothiazines and thianthrenes, utilizing simple protocols without any foul odor, thanks to the high stability of the compounds.

With readily available aryne precursors and versatile transformations achievable using o-bromobenzenethiols, this method enabled the synthesis of a wide variety of organosulfur compounds with highly fused organosulfur skeletons. Furthermore, this method holds the potential to significantly reduce the number of steps in the synthesis of multi substituted organosulfurs contributing towards drug discovery in pharmaceutical sciences.

"With our method, it is now possible to synthesize sulfur-containing compounds with complex structures that are difficult to achieve using conventional methods. It can enable the development of novel organosulfur compounds that could lead to the discovery of new drugs, eco-friendly agrochemicals for sustainable agriculture, advanced materials, and organic electronics," remarks Prof. Yoshida, underscoring the potential applications of their study.

This study opens new possibilities for the synthesis of organosulfur compounds with diverse applications in many fields. "Further studies on expansion of scope and applications of this method for synthesis of bioactive organosulfur compounds are underway in our laboratory," concludes a hopeful Prof. Yoshida.

Unlocking Complex Sulfur Molecules: A Novel Approach for Synthesis of Functionalized Benzenethiol Equivalents

Image title: Synthesizing o-bromobenzenethiols from aryne intermediates
Image caption: This innovative method involves bromothiolation of aryne intermediates, resulting in the formation of highly functional o-bromobenzenethiols, which can be subsequently used to prepare diverse organosulfur compounds
Image credit: Suguru Yoshida from Tokyo University of Science
License type: CC BY 4.0

Title of original paper  : Bromothiolation of Arynes for the Synthesis of 2-Bromobenzenethiol Equivalents
Journal  : Organic Letters
DOI  : 10.1021/acs.orglett.4c00944
About The Tokyo University of Science

Tokyo University of Science (TUS) is a well-known and respected university, and the largest science-specialized private research university in Japan, with four campuses in central Tokyo and its suburbs and in Hokkaido. Established in 1881, the university has continually contributed to Japan's development in science through inculcating the love for science in researchers, technicians, and educators.

With a mission of "Creating science and technology for the harmonious development of nature, human beings, and society," TUS has undertaken a wide range of research from basic to applied science. TUS has embraced a multidisciplinary approach to research and undertaken intensive study in some of today's most vital fields. TUS is a meritocracy where the best in science is recognized and nurtured. It is the only private university in Japan that has produced a Nobel Prize winner and the only private university in Asia to produce Nobel Prize winners within the natural sciences field.

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About Associate Professor
Suguru Yoshida
from Tokyo University of Science

Dr. Suguru Yoshida is an Associate Professor at the Faculty of Advanced Engineering, Department of Biological Science and Technology, Tokyo University of Science, Japan. He received his B.S. and M.S. degrees from the University of Tokyo. After receiving his Ph.D. in engineering from Kyoto University (2009), he served as a Postdoctoral Fellow (Kyushu University and University of Hawaii at Manoa), an Associate Professor (Tokyo Medical and Dental University), and a Program Officer (MEXT) prior to his current role. He has won multiple awards, including Thieme Chemistry Journals Award, the Young Scientists' Prize, and the Commendation for Science and Technology by MEXT. He has published over 130 articles, garnering over 3,600 citations in his primary research area of synthetic organic chemistry and chemical biology.
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Funding information

This work was supported by JSPS KAKENHI Grant Number JP22H02086 (S.Y.); The Uehara Memorial Foundation (S.Y.); Tokuyama Science Foundation (S.Y.); The Ube Foundation (S.Y.); and Inamori Research Grants (S.Y.).


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