photo of Jupiters atmosphare as seen by the spacecraft Juno (Gerald Eichstädt /Seán Doran (NASA/SwRI/MSSS))

Satellite Event to the Conference on Complex Systems, 2025, Siena





Chemical Complexity: From Emergent Properties to Applications

This satellite presents chemical reactions for complex, out-of-equilibrium behaviors, offering insights into self-organization, pattern formation, and emergent dynamics in physical, biological, and technological systems. Researchers will discuss recent advances in autocatalytic and oscillatory reactions, reaction-diffusion patterns, and chaotic dynamics, emphasizing the interplay between chemical instabilities and emergent properties.

Beyond fundamental aspects, the session explores how chemo-transport mechanisms and instabilities can address real-world challenges, such as environmental issues, synthetic biology, and materials design. By fostering interdisciplinary discussions, it aims to connect fundamental research with practical applications, showcasing chemical complexity as a unifying framework in complexity science, communication, and computational advancements.

For more details click here.


Satellite Event to the Conference on Complex Systems, 2025, Siena



Chemical Complexity: From Emergent Properties to Applications

This satellite presents chemical reactions for complex, out-of-equilibrium behaviors, offering insights into self-organization, pattern formation, and emergent dynamics in physical, biological, and technological systems. Researchers will discuss recent advances in autocatalytic and oscillatory reactions, reaction-diffusion patterns, and chaotic dynamics, emphasizing the interplay between chemical instabilities and emergent properties.

Beyond fundamental aspects, the session explores how chemo-transport mechanisms and instabilities can address real-world challenges, such as environmental issues, synthetic biology, and materials design. By fostering interdisciplinary discussions, it aims to connect fundamental research with practical applications, showcasing chemical complexity as a unifying framework in complexity science, communication, and computational advancements.

For more details click here.