A cost-effective multifunctional molecule for efficient and stable invert perovskite solar cells by Yaoyao Li, Jiaqun Li, Ning Meng, Haoze Han, Jianfeng Yan, Dandan Song

“…However, the cost and complexity of most modification materials limit the rapid development of perovskite photovoltaic technology. …”
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Research Note: Comprehensive proteomic, phosphoproteomic, and N-glycoproteomic analysis of chicken egg yolk plasma by Di Xiao, Gan Hu, Qianying Ding, Hong He, Jinqiu Wang, Fang Geng

“…Notably, vitellogenins-2 (30 phosphorylation sites, 9 N-glycosylation sites) and apolipoprotein B (10 phosphorylation sites, 56 N-glycosylation sites) were the 2 proteins with the most modification sites. Additionally, EYP was found to contain the highly N-glycosylated complement proteins C3 and C4. …”
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De novo basecalling of RNA modifications at single molecule and nucleotide resolution by Sonia Cruciani, Anna Delgado-Tejedor, Leszek P. Pryszcz, Rebeca Medina, Laia Llovera, Eva Maria Novoa

“…Abstract RNA modifications influence RNA function and fate, but detecting them in individual molecules remains challenging for most modifications. Here we present a novel methodology to generate training sets and build modification-aware basecalling models. …”
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Systematic computational research dealing with the effect of molecular size, heteroatom substitution and modification site on electronic properties, absorption and charge transfer... by Zhi-Zhou Chen, Xin Pu, Fu-Quan Bai

“…In this work, we divided the central donor moiety of the two A-D-A type molecules into ‘Core’ and ‘Sides’, which refer to the aromatic rings at the molecular center and the two ends of the central donor moiety, respectively. Most modifications on the backbone can be summarized into conjugation expansion and heteroatom substitution on the two sites. …”
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