The realm of nanotechnology is continuously advancing, driven by the discovery and application of novel materials with unique properties. Among these, Fullerene C70 (CAS 115383-22-7) has emerged as a compound of significant interest for researchers and developers in various scientific fields. Its distinctive molecular structure and chemical reactivity make it an invaluable asset in research and development, particularly in specialized areas of nanotechnology and advanced chemical synthesis. For those seeking to buy this material for scientific purposes, understanding its application scope is paramount.

Fullerene C70 is an ellipsoidal fullerene, a type of carbon allotrope characterized by its cage-like structure. Comprising 70 carbon atoms, it possesses a more complex electronic structure and higher reactivity compared to its C60 counterpart. This makes it an excellent candidate for diverse research applications, including its exploration as a component in advanced photocatalytic systems. When integrated into specific nanocomposites, Fullerene C70 demonstrates potent light-responsive photocatalytic activity, opening avenues for applications in environmental remediation, such as water purification, and in catalyzing complex chemical reactions. Researchers often seek out 'Fullerene C70 for photocatalysis' when sourcing this material.

In the field of chemical research, the pursuit of novel functional materials is relentless. Fullerene C70 is not only studied for its photocatalytic potential but also for its role in energy storage and advanced materials science. Its capacity to accept electrons makes it a subject of interest for next-generation battery electrode materials and in the development of high-performance electronic components. For academic institutions and R&D departments, procuring high-purity Fullerene C70 from a reliable chemical supplier ensures the integrity and reproducibility of experimental results. Inquiring about 'Fullerene C70 manufacturer' or 'Fullerene C70 price' with specific purity requirements (e.g., 99% or higher) is standard practice.

When sourcing Fullerene C70 for research, buyers will encounter various specifications and packaging options. The standard appearance is typically a black powder, with purity levels often exceeding 98% or 99% when analyzed by HPLC. Reputable chemical companies offer this material in quantities suitable for laboratory experiments, from milligrams to grams, ensuring accessibility for a wide range of research projects. The availability of detailed technical data sheets and safety information from the supplier is also crucial for researchers.

In conclusion, Fullerene C70 is a vital advanced material with burgeoning applications in nanotechnology, photocatalysis, and energy research. Its unique chemical and physical properties continue to inspire innovation. For laboratories and research institutions, partnering with a trusted chemical manufacturer and supplier that offers high-quality Fullerene C70 at competitive prices is essential for advancing scientific discovery.