73692-52-1Relevant articles and documents
Synthesis and structure–activity relationships of nonionic surfactants with short fluorocarbon chains
Wang, Ruiguo,Song, Lingyun,Guo, Yuanqiang,Kou, Junjie,Song, Hongjian,Liu, Yuxiu,Zhang, Jingjing,Wang, Qingmin
, (2021)
The biodegradability of fluorinated surfactants can be improved by reducing the length of the fluorocarbon chain. In this study, ten new nonionic fluorinated surfactants with various hydrophilic and hydrophobic chain lengths were synthesized by means of s
Bna Conjugates and Methods of Use
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Page/Page column 30, (2008/12/08)
Modified natriuretic compounds and conjugates thereof are disclosed in the present invention. In particular, conjugated forms of hBNP are provided that include at least one modifying moiety attached thereto. The modified natriuretic compound conjugates retain activity for stimulating cGMP production, binding to NPR-A receptor, decreasing arterial blood pressure and in some embodiments an improved half-life in circulation as compared to unmodified counterpart natriuretic compounds. Oral, parenteral, enteral, subcutaneous, pulmonary, and intravenous forms of the compounds and conjugates may be prepared as treatments and/or therapies for heart conditions particularly congestive heart failure. Modifying moieties comprising oligomeric structures having a variety of lengths and configurations are also disclosed. Analogs of the hBNP compound are also disclosed, having an amino acid sequence that is other than the native sequence.
Network single ion conductors based on comb-branched polyepoxide ethers and lithium bis(allylmalonato)borate
Sun, Xiao-Guang,Kerr, John B.,Reeder, Craig L.,Liu, Gao,Han, Yongbong
, p. 5133 - 5135 (2007/10/03)
The synthesis of network single ion conductors to obtain single ion conductors with high ambient temperature conductivity and mechanical strength is discussed. The single ion conductors were based on comb-branched polyepoxide ethers and lithium (Li) bis(allylmelonato)borate. The single ion conductors possessed good mechanical strength due to the formation of network structure and the Li/Li symmetric cell cycling showed no concentration polymerization. The results show that the backbone structure of the polyepoxides contributes to the total ionic conductivity and it increases with the increasing side chain length.
