Our Video Topics
The physics of solution and solid systems share many similarities, but also present unique challenges. This series of videos focuses on applying NMR to a variety of solid-state samples, simulating such systems, and developing methods to get the most out of your spectroscopy.
The physics of solution and solid systems share many similarities, but also present unique challenges. This series of videos focuses on applying NMR to a variety of solution-state samples, simulating such systems, and developing methods to get the most out of your spectroscopy.
Sensitivity is a major hurdle for the feasibility of many NMR experiments, and this is often illustrated through the limitation of Boltzmann magnetization. Dynamic Nuclear Polarization (DNP) describes one family of approaches to overcoming that barrier by producing hyperpolarized samples. In this series of videos, you will learn about the development of techniques to produce hyperpolarized samples in a variety of contexts.
Biological systems provide a popular and vital target for NMR research. Biomolecules require a variety of innovative techniques to overcome the unique hurdles produced by these complex systems. In this series of videos, you will learn about some of the methods being used to better understand Biology.
Field strength is a common point of discussion within NMR, but often builds in the comfortable assumption that there will be a field present. In truth, there’s a rich field of study when you remove the magnetic field. In this series of videos, you will learn about some of the fundamentals of zero to low field NMR, how its unique insights can be coupled to other techniques.
Collecting data is all well and good, but what do the peaks in our spectra mean? To understand what our data tells us, we need to understand how physical phenomena produce spectral data. In this series of videos, you will learn about some of the fundamentals of NMR theory and how computational tools can help interpret experimental results.
Samples can be challenging to measure, spectra can be difficult to collect, and data can be hard to interpret. All of these steps can be made easier with innovative instrumentation. In this series of videos, you will learn about some of the fundamentals of NMR instrumentation and how combining these tools with other hardware can produce valuable new insights.