(2S)-N-(acryloyl)bornane-10,2-sultam, commonly known as Oppolzer's acryloyl sultam, is a chiral auxiliary derived from camphorsulfonic acid. It features a bornane skeleton with a sulfonamide group and an acryloyl moiety attached to the nitrogen atom. This compound is a solid with high optical purity and is widely recognized for its role in asymmetric synthesis. Its primary and most significant application is as a chiral building block and auxiliary in the synthesis of advanced organic electronic materials, particularly for OLEDs (Organic Light-Emitting Diodes). The chiral and rigid bornane scaffold, combined with the polymerizable acryloyl group, makes it a valuable precursor for constructing chiral polymers or small molecules with specific optical and electronic properties. It is used to introduce chirality into π-conjugated systems, which is crucial for developing circularly polarized luminescence (CPL) materials, a key area in next-generation display and lighting technologies. While its use as a classical chiral auxiliary in pharmaceutical synthesis is documented, contemporary research and commercial interest are heavily focused on its utility in materials science. The compound enables the precise control of molecular architecture required for high-performance optoelectronic devices.