Superconductivity, the ability of certain materials to conduct electricity without resistance, has been a phenomenon of keen interest in the realm of physics. Recent studies have delved into the potential of quadratic electron-phonon coupling to elevate superconducting properties through the formation of quantum bipolarons. This article aims to explore the implications of this novel mechanism
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In a groundbreaking study published in Applied Physics Reviews, researchers have uncovered a new technique to address the issue of enhancing the capacity of sodium-ion batteries. Led by Professor Oleg Kolosov from Lancaster University and Professor Zhigao Huang from Fujian Normal University, along with key contributions from Associate Professor Yue Chen, this research marks a
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Somatostatin receptors (SSTRs) are G protein-coupled receptors (GPCRs) that play a significant role in hormone secretion regulation and tumor growth inhibition. Among the five subtypes, SSTR5 is highly expressed in the pituitary gland, controlling the release of key hormones like adrenocorticotropic hormone, prolactin, and growth hormone. This makes SSTR5 a promising target for treating endocrine
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In the realm of waveguide technology, photonic alloys have emerged as a promising avenue for controlling the propagation of electromagnetic waves. However, a significant drawback of these materials has been their tendency to reflect light back in the direction of origin, a phenomenon known as light backscattering. This limitation has hindered the transmission of data
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Ethylene (C2H4) is an essential compound used in various industries such as manufacturing, agriculture, and healthcare. The demand for ethylene is on the rise, prompting the need for more sustainable and efficient methods of production. One potential method involves converting ethane (C2H6) found in natural gas into ethylene and hydrogen, but current approaches require significant
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