It all began in 1908 when a Swiss engineer and inventor, Jacques E. Brandenberger, saw a drink spill on a linen tablecloth in ...
Researchers have engineered synthetic cells capable of mimicking biological division, a step toward artificial life systems.
Rowan University students earn prestigious NSF Graduate Research Fellowships for work on cell therapies, planetary science ...
Complexity may seem subjective, but a quantitative measure of the complexity of nanomaterials was recently developed by a ...
Living systems such as cells rely on membrane pores and channels to transport molecules, exchange signals, and organize biochemical reactions. These functions emerge from dynamic interactions between ...
Chemists have been working on new approaches to reducing waste and finding new functions for existing materials.
Scientists have created a new supermaterial using bacteria-grown cellulose. This material is strong, flexible, and ...
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While concrete drains energy and cement, scientists created a building material that uses an enzyme to turn CO₂ into stone-like minerals in just hours
A cubic meter of conventional concrete releases roughly 330 kilograms of carbon dioxide into the atmosphere. The new material ...
Understand how peptides function in the human body, antimicrobial peptides, skin care applications, and regulatory updates.
From silkworm to super material Researchers fuse silk fibers into high-performance solids that are almost as tough as Kevlar.
A newly developed bacterial cellulose manufacturing technique could lead to strong, multifunctional materials capable of ...
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