近年来,科学家们在纳米材料的生长及应用研究等诸多方面取得了巨大的进展.然而,由于受到表征手段的限制,纳米科技领域的许多关键科学问题至今仍未得到清楚的解答.同步辐射具有多种独特优点,随着国内第三代同步辐射光源的逐步发展,基于同步辐射的各种实验技术将为实时、原位、动态地表征纳米结构提供功能强大的研究平台.文章简单介绍了基于同步辐射的一些新型纳米结构表征技术,并根据作者的研究举例说明了同步辐射技术在纳米材料研究方面的一些优势. In recent years, scientists have made great progress in many aspects such as the growth and application of nanomaterials.However, due to the limitation of characterization methods, many key scientific problems in the field of nanotechnology have not yet been clearly answered.Synchronic radiation has A variety of unique advantages, with the gradual development of the third generation of synchrotron radiation light sources in China, various experimental techniques based on synchrotron radiation will provide a powerful research platform for real-time, in-situ and dynamic characterization of nanostructures.This article briefly introduces the basic principles of synchrotron radiation Some new synchrotron radiation nanostructure characterization techniques, and according to the author’s research, illustrate some advantages of synchrotron radiation technology in nanomaterials research.