Boron

10B isotopically labeled compounds play a crucial role in nuclear science, medical research, and materials science. Boron-10 (10B) is a stable isotope of boron, renowned for its high neutron capture cross-section, making it invaluable in neutron capture therapy (NCT) and other nuclear applications. In nuclear science, 10B labeled compounds are utilized in neutron capture therapy, a promising cancer treatment method. By selectively targeting cancer cells with 10B-labeled agents, researchers can achieve localized radiation therapy, minimizing damage to surrounding healthy tissues and improving treatment outcomes. Medical research leverages 10B labeled compounds in diagnostic techniques and drug development. These compounds are used in boron neutron capture synovectomy (BNCS), a treatment for rheumatoid arthritis, and in studying the pharmacokinetics and biodistribution of boron-containing drugs. Materials science benefits from 10B labeled compounds in the development of advanced materials. The unique properties of 10B enable the creation of materials with enhanced neutron shielding capabilities, crucial for applications in nuclear reactors, radiation protection, and space exploration.