Chongfan Technology
Co-branding
12
2024
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05
Alluxa
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Alluxa is supplying the world with state-of-the-art optical thin film coatings at its design and manufacturing center in California. People who need to solve their most challenging filter problems turn to Alluxa to ensure their success.
Alluxa, based in Santa Rosa, California, was founded a few years ago by a group of film deposition veterans. Alluxa's core team brings together decades of expertise and diverse backgrounds in the fields of deposition, automation, metrology and optics. Alluxa produces its filters using new custom optical thin film coating equipment designed and manufactured by our team. The combination of our state-of-the-art automation technology, proprietary control algorithms, and patented plasma thin film deposition process can create the world's most difficult filters in a fraction of the time required by other hard coating methods. Using this proprietary thin film optical coating platform, Alluxa is providing customized solutions to the most challenging optical coating problems-including cost reduction to meet high performance requirements.
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LATEST NEWS
2024-09-14
Wang Su's team at Southeast University found that microenvironmental glial cells regulate stem cell self-renewal and differentiation by delivering iron to neural stem cells through ferritin
The study of neural stem cells is of great significance for the treatment of neural development and nervous system diseases. However, the regulation mechanism of neural stem cells has not been fully elucidated, especially the regulation of neural stem cells by microenvironment is relatively less known.
2024-09-14
Subversion of the past! Tsinghua University Dai Qionghai/Guo Zengcai/Wu Jiamin Cooperation Latest Cell
A comprehensive understanding of physiopathological processes requires non-invasive live three-dimensional (3D) imaging on different spatial and temporal scales. However, huge data throughput, optical non-uniformity, surface irregularities, and phototoxicity pose huge challenges, resulting in inevitable trade-offs between volume size, resolution, speed, sample health, and system complexity.
2024-09-11
The latest research by Guo Jianping/Cheng Chao/Bo Lang of Sun Yat-sen University confirms that palmitic acid can suppress virus infection by activating innate immunity!
Innate immunity is the primary defense against viral and microbial infections. The exact effect of cellular metabolites, particularly fatty acids, on antiviral innate immunity remains largely elusive.
2024-09-11
He Chuan and other teams have shown that METTL14 regulates insulin sensitivity throughout the body through a mechanism independent of UCP1!
Brown adipose tissue (BAT) regulates systemic metabolism by releasing signaling lipids. N6-methyladenosine (m6 A), the most prevalent and abundant post-transcriptional mRNA modification, has been reported to regulate BAT adipogenesis and energy expenditure.
2024-09-09
Engelie net new use! The latest research from Southern Medical University shows that SGLT2 inhibitors promote ketogenic and improve MASH by inhibiting CD8 T cell activation.
Accumulation of autoaggressive CD8 T cells contributes significantly to liver injury and inflammation during the progression of metabolic dysfunction-associated steatohepatitis (MASH). EMPA, a highly selective sodium-glucose co-transporter 2 (SGLT2) inhibitor, has potential therapeutic effects on hepatic steatosis; however, the underlying mechanism has not been fully elucidated.
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