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Kim ,, Bongx2010,Gyu,Jungx2009,, Na Ri,Joe, Eun Ji,Hur, Horx2010,Gil,Lim, Yoongho,Chong, Youhoon,Ahn, Joongx2010,Hoon WILEY‐VCH Verlag 2010 Chembiochem Vol.11 No.17
<P><B>Just add sugar</B>: An unnatural flavonoid‐deoxyaminosugar conjugate was biologically synthesized in <I>Escherichia coli</I> by engineering an <I>E. coli</I> nucleotide–sugar pathway and expressing a glycosyltrandfease specific for UDP‐arabinose derivatives. </P>
Sodium–Metal Halide and Sodium–Air Batteries
Hax2009,, Seongmin,Kim ,, Jaex2010,Kwang,Choi, Aram,Kim, Youngsik,Lee, Kyu Tae WILEY‐VCH Verlag 2014 ChemPhysChem Vol.15 No.10
<P>Impressive developments have been made in the past a few years toward the establishment of Na-ion batteries as next-generation energy-storage devices and replacements for Li-ion batteries. Na-based cells have attracted increasing attention owing to low production costs due to abundant sodium resources. However, applications of Na-ion batteries are limited to large-scale energy-storage systems because of their lower energy density compared to Li-ion batteries and their potential safety problems. Recently, Na-metal cells such as Na-metal halide and Na-air batteries have been considered to be promising for use in electric vehicles owing to good safety and high energy density, although less attention is focused on Na-metal cells than on Na-ion cells. This Minireview provides an overview of the fundamentals and recent progress in the fields of Na-metal halide and Na-air batteries, with the aim of providing a better understanding of new electrochemical systems.</P>