Nature keeps a few secrets. While plenty of structures with low symmetry are found in nature, scientists have been confined to high-symmetry designs when synthesizing colloidal crystals, a valuable ...
University of British Columbia (UBC) scientists have demonstrated a reversible way to switch the topological state of a ...
From snowflakes to quartz, nature’s crystalline structures form with a reliable, systemic symmetry. Researchers at Drexel University, who study the formation of crystalline materials, have shown that ...
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Light-induced symmetry changes in tiny crystals allow researchers to create materials with tailored properties
Imagine building a Lego tower with perfectly aligned blocks. Each block represents an atom in a tiny crystal, known as a quantum dot. Just like bumping the tower can shift the blocks and change its ...
In a surprising twist, researchers have identified crystals that are symmetrical but nevertheless absorb light as if they were chiral (Science 2025, DOI: 10.1126/science.adr5478). The discovery ...
Researchers learn to predict how crystals take shape from their internal chemistry, even when the crystal lacks symmetry. A crystal's shape is determined by its inherent chemistry, a characteristic ...
As global demand for faster computing and sustainable energy solutions rises, the need for powerful yet energy-efficient electronic devices grows more urgent. From smartphones and data centers to ...
Recently, the research groups led by Prof. ZHANG Qingli and Prof. JIANG Haihe from Hefei institutes of Physical Science (HFIPS) of Chinese Academy of Sciences (CAS) have jointly developed a ...
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