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Biology
The temperature -sensitive protein module can lead the cell activity remotely
BCLOV4 Utilizes heat sensitivity to produce a purely temperature -induced protein. Credit: Natural method (2025). Doi: 10.1038/S41592-024-02572-4 Imagine that you are in the arena like a super bowl, in the arena in the arena where the RO sound of the crowd, the smell of hot dogs, and the jersey sea are all one mixed Otic. 。 The enthusiastic and exciting…
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Physics
Ytterbium thin disk laser paves the way for sensitive detection of air pollutants
Optical parametric oscillator pump with ytterbium thin plate laser. Credit: APL Photonics (2024). DOI: 10.1063/5.0230388 Along with carbon dioxide, methane is the main cause of global warming. To accurately detect and monitor climate pollutants in the atmosphere, scientists at the Max Planck Institute for the Science of Light (MPL) have developed advanced laser technology. A high-power ytterbium thin disk laser…
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Nanotechnology
Acceleration of 3D nanofabrication using highly sensitive cationic photoresists
Credit: Pixabay/CC0 Public Domain Two-photon laser direct write lithography (TPL) is a state-of-the-art technique used to create nanoscale structures. It works by utilizing a specific material known as a photoresist, which changes its chemical properties when exposed to light. These materials absorb laser light in a unique way, allowing precise control during exposure to laser light. Unlike traditional ultraviolet (UV)…
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Chemistry
Researchers develop recyclable dynamic polymer network material for highly sensitive sensors
Sustainable polymer SWCNT-based flexible electrode materials. Credit: Sustainable polymer SWCNT-based flexible electrode material Professor Chiyoung Park of DGIST’s School of Energy Science and Engineering has developed a new material that advances highly sensitive and recyclable sensor technology. In collaboration with Professor U-hyeok Choi of Inha University, Park’s team created a highly sensitive recyclable sensor based on a dynamic polymer network.…
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Nanotechnology
New microchip captures exosomes, enabling faster and more sensitive lung cancer detection from blood collection
The twisted disc shape of gold nanoparticles creates chirality, or asymmetry, and ensures strong interaction with light. A cavity in the center, less than 100 nanometers wide, helps the nanoparticles trap exosomes. Credit: University of Michigan A new method for diagnosing lung cancer by drawing blood is 10 times faster and 14 times more sensitive than previous methods, according to…
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