Cortez, M., Pallarola, D., Ceolín, M., Azzaroni, O., & Battaglini, F. Electron transfer properties of dual self-assembled architectures based on specific recognition and electrostatic driving forces: Its application to control substrate inhibition in horseradish peroxidase-based sensors.
Cita Chicago Style (17a ed.)Cortez, M.L, D. Pallarola, M. Ceolín, O. Azzaroni, y F. Battaglini. Electron Transfer Properties of Dual Self-assembled Architectures Based on Specific Recognition and Electrostatic Driving Forces: Its Application to Control Substrate Inhibition in Horseradish Peroxidase-based Sensors.
Cita MLA (8a ed.)Cortez, M.L, et al. Electron Transfer Properties of Dual Self-assembled Architectures Based on Specific Recognition and Electrostatic Driving Forces: Its Application to Control Substrate Inhibition in Horseradish Peroxidase-based Sensors.