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Saitama University researchers develop a new way to build molecular “ladders” for organic electronics

07.08.26 | Saitama University
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Ladder-type oligothiophenes are an important class of sulfur-containing π-conjugated molecules. Because their fused, ladder-like structures can support efficient electronic interactions, they are widely studied as core motifs for organic semiconductors, organic field-effect transistors, flexible electronics, and related molecular materials.

In molecular electronics, however, simply connecting rings together is not enough. The electronic properties of these molecules depend strongly on how the thiophene rings are fused and how sulfur atoms are oriented along the molecular framework. Some arrangements produce highly conjugated systems, while others introduce cross-conjugated segments that can alter the band gap and molecular packing. Although interest in such mixed conjugated/cross-conjugated molecular systems is growing, a general method for systematically constructing regioisomeric ladder-type oligothiophenes with precise control over thiophene ring orientation has not been well established.

A research team led by Associate Professor Hidenori Kinoshita of the Graduate School of Science and Engineering, Saitama University, developed a sequential annulation strategy to address this challenge. By combining halogenation, halogen-dance reactions, Sonogashira coupling, and diisobutylaluminum hydride-promoted C–S bond-forming cyclization, the team regioselectively fused new thiophene rings onto preexisting thiophene frameworks. This made it possible to precisely construct sulfur-containing ladder-type structures that are difficult or impossible to access using conventional approaches. Using this method, the team achieved the comprehensive synthesis of all 14 target regioisomeric ladder-type oligothiophenes based on thienothiophene, dithienothiophene, and trithienothiophene frameworks.

The study, titled “A Sequential Annulation Strategy for the Regiocontrolled Construction of Structurally Defined Ladder-Type Oligothiophenes,” was published online in Organic Letters on June 2, 2026.

The key findings of this study are as follows:

“Being able to control the orientation of each thiophene ring gives molecular design a new degree of freedom,” explains Associate Professor Kinoshita. “Until now, many studies have focused on synthesizing individual ladder-type frameworks. Our method makes it possible to systematically choose not only the size of the fused system, but also the direction in which each sulfur-containing ring is arranged. This could help establish new design principles for thienoacene-based materials.”

Associate Professor Kinoshita further comments on the significance of this method for future materials design research: “Although the present study focuses on synthetic chemistry, the ability to systematically construct structurally defined ladder-type oligothiophenes provides researchers with a versatile molecular platform for investigating how subtle structural variations influence the electronic properties of π-conjugated materials. This strategy could ultimately facilitate the rational design of next-generation organic semiconductors and other functional molecular materials.”

Organic Letters

10.1021/acs.orglett.6c01789

Experimental study

A Sequential Annulation Strategy for the Regiocontrolled Construction of Structurally Defined Ladder-Type Oligothiophenes

2-Jun-2026

Keywords

Article Information

Contact Information

Yoshikazu Kobayashi
Saitama University
yk117@mail.saitama-u.ac.jp

How to Cite This Article

APA:
Saitama University. (2026, July 8). Saitama University researchers develop a new way to build molecular “ladders” for organic electronics. Brightsurf News. https://www.brightsurf.com/news/L7V9E6Z8/saitama-university-researchers-develop-a-new-way-to-build-molecular-ladders-for-organic-electronics.html
MLA:
"Saitama University researchers develop a new way to build molecular “ladders” for organic electronics." Brightsurf News, Jul. 8 2026, https://www.brightsurf.com/news/L7V9E6Z8/saitama-university-researchers-develop-a-new-way-to-build-molecular-ladders-for-organic-electronics.html.