An introduction to solid-state NMR — an indispensable analytical tool

by | Oct 28, 2020

Webinar providing an introduction to the basic principles and techniques of solid-state NMR, and example applications in chemistry and material research.

Are you new to solid-state NMR and would like to gain a better understanding of this exciting and rapidly developing area of NMR spectroscopy? If so, sign up for this webinar that will introduce you to the basic principles and techniques of solid-state NMR, and  provide examples of applications in chemistry and material research.

On-demand Webinar

In recent years, solid-state NMR has rapidly expanded its application fields due to the development of technology and its usefulness and has become an indispensable analytical tool not only in organic chemistry such as pharmaceuticals and polymers, but also in inorganic materials and battery materials.

In this webinar, we briefly introduce the basic principles and techniques of solid-state NMR, and examples of applications in chemistry and material research.

By attending you will learn...

  • Differences between solution-state NMR and solid-state NMR
  • Applications of solid-state NMR
  • Basic principle and techniques of solid-state NMR.

The Presenter

Koji_80Koji Yazawa, PhD
(NMR Application Specialist,
JEOL RESONANCE Inc.)

Koji Yazawa obtained his PhD under supervision of Prof. Naoki Asakawa at Tokyo Institute of Technology in 2006 on his work on the solid-state NMR analysis of conjugated polymers. He joined the faculty at the same institute as an assistant professor in 2007. In 2010, he was a visiting scientist at Imperial College London, where he worked with Prof. Robert Law. He moved to Tokyo University of Agriculture and Technology in 2011, where he worked with Prof. Tetsuo Asakura and also collaborated with JEOL in the research of structural analysis of biomaterials using ultra fast MAS. He has been working at JEOL RESONANCE Inc. as an NMR application specialist since 2013. He provides technical and customer support, and undertakes various collaboration research using solid-state and diffusion NMR.

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