Enabling Technologies for Cell-Silicon Interfacing: Difference between revisions
From Murray Wiki
Jump to navigationJump to search
(Created page with "{{subst:project boilerplate}} {{Project |Title=Enabling Technologies for Cell-Silicon Interfacing |Agency=Army Research Laboratory |Start date=1 Jan 2019 |End date=30 Dec 20...") |
(No difference)
|
Revision as of 22:50, 25 December 2018
Project description (typically about a paragraph)
Current participants: Additional participants: |
Collaborators: Past participants:
|
Objectives
Description of the main objectives of the project
References
- A Field-Deployable Arsenic Sensor Integrating Bacillus Megaterium with CMOS Technology. Chelsea Y Hu, John B McManus, Fatemeh Aghlmand, Elin M Larsson, Azita Emami, Richard M Murray. Submitted, ACS Synthetic Biology, 2024.
- A 65nm CMOS Living-Cell Dynamic Fluorescence Sensor with 1.05fA Sensitivity at 600/700nm Wavelengths. Fatemeh Aghimand, Chelsea Hu, Saransh Sharma, Krishna K. Pochana, Richard M. Murray, Azita Emami. 2023 IEEE International Solid-State Circuits Conference (ISSCC).
- Construction of an inducible amyloid expression circuit in Bacillus megaterium: A case study with CsgA and TasA. Elin M. Larsson, John B. McManus, Richard M. Murray. bioRxiv 858266.
|
|
|