Contact angle and active drop transport for time resolved Macromolecular and serial femto-second crystallography

C. Burton, P. Docker, M. Prince, Danny Axford, Allen Orville, P. Topham

Research output: Chapter in Book/Report/Conference proceedingConference publication

Abstract

This paper will detail the process of reviewing and benchmarking the static contact angle of a number of Macromolecular sample compatible microfluidic substrate by way of sessile droplet methods. These materials will then be patterned with the techniques investigated and the contact angles revisited. The work continues evaluating recently introduced techniques to capture micro crystal slurries, diffraction testing taking place at the Diamond Light Source, a third generation light source in the United Kingdom.

Original languageEnglish
Title of host publicationInformatics, Electronics and Microsystems - TechConnect Briefs 2017
Pages116-119
Number of pages4
Volume4
ISBN (Electronic)9780998878218
Publication statusE-pub ahead of print - 14 May 2017
Event11th Annual TechConnect World Innovation Conference and Expo, Held Jointly with the 20th Annual Nanotech Conference and Expo, and the 2017 National SBIR/STTR Conference - Washington, United States
Duration: 14 May 201717 May 2017

Conference

Conference11th Annual TechConnect World Innovation Conference and Expo, Held Jointly with the 20th Annual Nanotech Conference and Expo, and the 2017 National SBIR/STTR Conference
CountryUnited States
CityWashington
Period14/05/1717/05/17

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  • Cite this

    Burton, C., Docker, P., Prince, M., Axford, D., Orville, A., & Topham, P. (2017). Contact angle and active drop transport for time resolved Macromolecular and serial femto-second crystallography. In Informatics, Electronics and Microsystems - TechConnect Briefs 2017 (Vol. 4, pp. 116-119)