nanoHUB-U Biodesign L5.3: Cellular Devices - Cells as Biosensors I
nanoHUB-U Biodesign L5.2: Cellular Devices - The Cell Device Biointerface
nanoHUB-U Biodesign L5.4: Cellular Devices - Cells as Biosensors II
nanoHUB-U Biodesign L5.1: Cellular Devices - Intro to Living Biohybrids
nanoHUB-U Biodesign L2.3: Cellular Architecture - Design Principles of Organelle Number
nanoHUB-U Nanobiosensors L5.2: Putting the pieces together - Genome Sequencer II
nanoHUB-U Nanobiosensors L5.1: Putting the pieces together - Genome Sequencer I
nanoHUB-U Biodesign L6.2: The Future - Ethics, Technology & Society
nanoHUB-U Biodesign L1.1: Introduction - Cells by the Numbers
nanoHUB-U Biodesign L6.1: The Future - Synthetic Life
nanoHUB-U Biodesign L1.4: Introduction - The Design of Photoreceptors as a Biosensors
nanoHUB-U Nanobiosensors L4.3: Selectivity - When all else fails, tag, filer and amplify
Nano-bio-interface
Better biosensors for constitutive activity
ABACUS Tool Suite Overview and Crystal Structures (Fall 2023)
nanoHUB-U Thermoelectricity L3.3: Nano/Macroscale Characterization - Thermoreflectance
nanoHUB-U Atoms to Materials L3.1: What is "Molecular Dynamics"?
nanoHUB-U Nanobiosensors L2.7: Settling Time - Beating the Diffusion Limit
Message from CEO: Progress towards graphene biosensors for disease detection
ZP Flow cells for testing biosensors and medical diagnostics
Biosensor sense and sensibility
Electric cell-substrate impedance sensing | Wikipedia audio article
How biosensors work - based on the natural arsenic detoxification pathway
NanoWorks SA - NanoTechnology Products
Genetic code. Molecular Biology # 4
