Nanoscale measurements of water loss during desiccation of biological cell suspensions
Document Type
Conference Proceeding
Publication Date
6-20-2005
Abstract
There is an urgent need to protect and conserve the endangered species of the world. Desiccation, or the phenomenon of anhydrobiosis, offers the attractive possibility of low cost, long term storage of reproductive tissues and cells from endangered species at ambient temperatures. Biophysical optimization of anhydrobiosis procedures requires dynamic and accurate quantification of the rate of moisture loss during a prescribed desiccation protocol. Engineered microstructures can serve as a multifunctional and highly sensitive method to measure the rate of moisture loss. This study presents a novel ultrasound based (resonant) mass sensor to quantify water loss during a drying process by measuring the corresponding shift in the resonant frequency of a micromachined vibrating structure. To model the proposed ultrasound based sensor, we performed a static (stress) and dynamic (frequency change with change in imposed mass) analysis. The results suggest that by tailoring the dimension of the vibrating element appropriate sensitivity can be achieved. © 2005 Materials Research Society.
Publication Source (Journal or Book title)
Materials Research Society Symposium Proceedings
First Page
173
Last Page
178
Recommended Citation
Mittal, S., & Devireddy, R. (2005). Nanoscale measurements of water loss during desiccation of biological cell suspensions. Materials Research Society Symposium Proceedings, 844, 173-178. Retrieved from https://repository.lsu.edu/mechanical_engineering_pubs/848