The field of bioelectronics has evolved since its conceptual origins in the late 18th century, when Luigi Galvani’s experiments on ‘‘animal electricity’’ laid the groundwork for understanding the interface between biology and electronics. Today, combining advanced materials with cutting-edge electronics gives rise to sophisticated systems that can dynamically communicate with biological tissues at various length and complexity levels.
Bioelectronics: Emerging trends and applications
E. Macchia;
2025-01-01
Abstract
The field of bioelectronics has evolved since its conceptual origins in the late 18th century, when Luigi Galvani’s experiments on ‘‘animal electricity’’ laid the groundwork for understanding the interface between biology and electronics. Today, combining advanced materials with cutting-edge electronics gives rise to sophisticated systems that can dynamically communicate with biological tissues at various length and complexity levels.File in questo prodotto:
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