Peter M Dickson

Title: Innovations by Inventor Peter M. Dickson in Organic Material Crystallization

Introduction

Peter M. Dickson is an innovative inventor based in Los Alamos, NM, renowned for his significant contributions to the field of material science, particularly in organic material crystallization. With a total of 2 patents to his name, his work has important implications for various applications within research and industry.

Latest Patents

Peter M. Dickson's latest patents include two notable methods:

1. **Method for Monitoring the Crystallization of an Organic Material from a Liquid** - This method involves preparing a liquid containing at least one organic material that can exist in a non-centrosymmetric phase. Using a laser beam interrogated at a specific wavelength, the method monitors the intensity of light scattered by the crystallized material. An increase in scattered light intensity indicates the formation of crystals with non-centrosymmetric phases.

2. **Method for Identifying and Probing Phase Transitions in Materials** - This invention details a method for identifying phase transitions in polymorphic materials that can exist in non-centrosymmetric phases. By interrogating these materials with laser light and inducing phase transitions, the method detects changes in scattered light intensity that indicate the emergence or disappearance of non-centrosymmetric phases.

Career Highlights

Peter M. Dickson's work is primarily based at the University of California, where he conducts research that bridges theoretical and practical aspects of material science. His expertise in using laser technology to probe material behaviors has set a high standard in the field and contributed to deeper understanding and innovation in crystallization processes.

Collaborations

In his research endeavors, Peter collaborates with esteemed colleagues, including Blaine W. Asay and Bryan Henson. Their collective expertise fosters a stimulating environment, propelling advancements in their shared research interests and enhancing the potential applications of their findings.

Conclusion

Peter M. Dickson's innovative methodologies for monitoring crystallization and probing phase transitions in organic materials exemplify the vital role inventors play in driving scientific progress. His contributions not only advance our understanding of material behaviors but also pave the way for practical applications in various fields, showcasing the importance of innovation in contemporary science.