Building molecules
分子をつなぐ。
Yamaguchi Group
Latest research achievements
Latest Activity
合成化学を究める
Developing new synthetic methodologies requires a broad range of scientific knowledge, creative thinking, and a systematic research approach. In our laboratory, many members individually pursue entirely different approaches to deeply understand the fundamental mechanisms and principles of chemical reactions. When these individual efforts connect and converge, new methodologies emerge.
Developing new reactions requires the creation of novel catalysts that can lower activation energies to previously unattainable levels. Initially, these ideas may seem like mere speculation, but through trial and error, valuable insights can be gained, allowing for the rational design of catalysts. Although catalyst development is fraught with challenges, the creation of a new catalyst can bring innovative methodologies and the synthesis of new molecules within reach.
With new methodologies and catalysts, we can create novel molecules. Total synthesis research, which efficiently synthesizes bioactive compounds, is also crucial for showcasing these advancements. Additionally, we provide novel frameworks that aid chemists in molecular craftsmanship.
We collaborate to create drug-related molecules and biomarkers. We also take on the challenge of creating molecules that require protein structural analysis and other structurally interesting organic molecules.
A molecule—which is the smallest fundamental unit of matter that exhibits the properties of the substance—can be structurally combined in an infinite number of ways. Building a multitude of such molecules while exploring new chemical space is not only “fun” but also opens up “new possibilities” to serve the chemical, as well as the global, community. The discipline that can realize the creation of new molecules is synthetic chemistry. In order to contribute to the continued development of synthetic chemistry, our research goals are three-fold: building molecules/destroying molecules/creating game-changing molecules. To tackle these fundamental pursuits in synthetic chemistry, we aim to become masters in the art of molecular construction by using unique synthetic strategies and catalyst designs.
There has been a wealth of knowledge surrounding the development of me
Building molecules
As we are in the business of making molecules, forming and breaking bo
Destroying molecules
The catalysts that we develop will be used on a group of molecules who
Creating game-changing molecules
我々の最新の研究成果を個別に紹介します。
2H-Thiazolotriazole: Synthesis, Functionalization, and Application in Scaffold-HoppingMiyazaki, R.; Takada, F.; Kikuchi, T.; Oguro, Y.; Kamata, M.
Nakahara, H.; Isshiki, R.; Kubo, M; Iizumi, K.: Muto, K.; Yamaguchi, J.Chem. 2024 online now.DOI 10.1016/j.chempr.2024.07.002Cross-coupling reac
Sakihara, M.; Shimoyama, S.; Kurosawa, M. B. Yamaguchi, J.Bull. Chem. Soc. Jpn. 2024, 97, uoae078.DOI 10.1093/bulcsj/uoae078In this study, we
Eito Moriya, Kei Muto, and Junichiro Yamaguchi*ACS Catal. 2024, 14, 10412–10417.DOI: 10.1021/acscatal.4c02707This manuscript describes the devel