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Using neutron spectroscopy data taken at ILL, researchers have achieved a novel understanding of molecular movement at the nanoscale, providing new insights that may impact the design of future materi

The SHARPER instrument at the ILL came online during the second 2024 reactor cycle, which run for 16 May to 9 June. SHARPER is a time-focusing time-of-flight spectrometer designed for quasi-elastic an

The cell membrane is a complex system, consisting of a semipermeable phospholipid bilayer embedded with various types of proteins, that controls the movement of substances in and out of a cell. Unders

A step closer to realising the potential of superconductivity through multidisciplinary international collaboration ThALES, the Three Axis instrument for Low Energy Spectrometry. Photo: Ecliptique, L.

Magnetic skyrmions, with their distinctive vortex-like magnetic spin configurations, have emerged as a fascinating subject of study, capturing the attention of researchers worldwide. A recent breakthr

Experimental evidence of rare magnetic behaviour in LiYbO 2 will help to open the door to a new family of materials with potential applications in spintronics, quantum computing and more. Just as a ba

Credit PCCP Fullerenes are molecular cages made purely from carbon, the most well-known being C-60 which is a molecular sphere made of 60 carbon atoms. The Nobel prize for chemistry in 1996 was awarde

The serum protein ApoE is known to bind to LNPs after administration and to be critical for cellular uptake and protein production in the liver. The acquisition of complementary SANS and SAXS data rev

Though continuous down-scaling in microelectronics has enabled the industry to achieve phenomenal success, the trend is now approaching fundamental limits. Promising alternative technologies for next

Figure 1. (a) Illustration of hard, borderline, and soft metal-chelator-like traps within the MOF-808 scaffold. (b) Illustration of tentative placement of the mercaptosuccinic molecules into the MOF-8