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Crystallization: The De(En)coding from Entropy,  | International Design Awards Winners
Crystallization: The De(En)coding from Entropy,  | International Design Awards Winners
Crystallization: The De(En)coding from Entropy,  | International Design Awards Winners
Crystallization: The De(En)coding from Entropy,  | International Design Awards Winners
Crystallization: The De(En)coding from Entropy,  | International Design Awards Winners
Crystallization: The De(En)coding from Entropy,  | International Design Awards Winners
Crystallization: The De(En)coding from Entropy,  | International Design Awards Winners
Crystallization: The De(En)coding from Entropy,  | International Design Awards Winners
Crystallization: The De(En)coding from Entropy,  | International Design Awards Winners
Crystallization: The De(En)coding from Entropy,  | International Design Awards Winners
Crystallization: The De(En)coding from Entropy,  | International Design Awards Winners

Crystallization: The De(En)coding from Entropy

UniversityHarvard University
Lead DesignersYumeng Li
CreditsPhoto by: LI&SUN DESIGN
Prize(s)Gold in Print / Books
Project LinkView
Entry Description

Decoding the lab experiments in this art book series allows readers to experience the process of crystal formation, which opens up a journey of the unknowns: fleeting and unpredictable. Encoding the chaotic macro reactions, entropy reduction movements at the particle level are neatly formed. Such controversy becomes the philosophy of this project, which seeks to mirror the paradox of life and nature. The uniquely designed 3.5D structures sequence the crystal topology dynamically. Organic acetate printing honors the aesthetics of sodium acetate crystallization: the code of nature.