Strategies for the Synthesis of Functional Naphthalene Diimides

Naphthalene diimides, which have for a long time been in the shadow of their higher homologues the perylene diimides, currently belong to the most investigated classes of organic compounds. This is primarily due to the initial synthetic studies on core functionalization that were carried out at the beginning of the last decade, which facilitated diverse structural modifications of the naphthalene scaffold. Compounds with greatly modified optical and electronic properties that can be easily and effectively modulated by appropriate functionalization were made accessible through relatively little synthetic effort. This resulted in diverse interesting applications. The electron‐deficient character of these compounds makes them highly valuable, particularly in the field of organic electronics as air‐stable n‐type semiconductors, while absorption bands over the whole visible spectral range through the introduction of core substituents enabled interesting photosystems and photovoltaic applications. This Review provides an overview on different approaches towards core functionalization as well as on synthetic strategies for the core expansion of naphthalene diimides that have been developed mainly in the last five years. Core competence: The structural modification of naphthalene diimides has undergone significant development in the last few years, which has culminated in a broad range of new derivatives with different adjustable electronic properties. This Review describes the synthetic strategies towards core‐substituted as well as core‐expanded naphthalene diimides.