Peptide Self‐Assembly for Lithium Ion Batteries: Nanostructures of transition metal
phosphates were fabricated through biomimetic mineralization of self‐assembled peptide …

We report the synthesis of novel diphenylalanine/cobalt (II, III) oxide (Co3O4) composite
nanowires by peptide self-assembly. Peptide nanowires were prepared by treating …

In this work, we present a novel binary solvent of ethylene glycol/water medium (W/EG 50:
50) that play an important role in the formation of the hierarchical meso-structures of bow-tie …

Amorphous iron phosphate nanowires with diameters of 10 to 20 nm were synthesized
using genetically engineered M13 virus for lithium ion battery cathodes. Hydrolysis of Fe3+ …

Lithium iron phosphate (LFP) is currently one of the main cathode materials used in lithium-
ion batteries due to its safety, relatively low cost, and exceptional cycle life. To overcome its …

Development of cellulose-based electrolytes can strongly reduce the cost of energy storage
devices. However, the prepared cellulose-based electrolytes use high contents of liquid …

Carbon nanotube (CNT)-amorphous FePO4 core–shell nanowires are synthesized by
aqueous solution-based mineralization through sequential adsorption of Fe3+ and PO43 …

Hierarchical LFP/C (LiFePO 4) nanoplate microspheres are prepared via a facile template‐
free route by self‐assembling porous microspheres of the interconnected network nanoplate …

Through the PO43− groups regularly arranged on its sugar-phosphate backbone, DNA is
used to direct the growth of a network structure of ultrasmall FePO4 nanoparticles on double …

Lithium metal battery (LMB) possessing a high theoretical capacity is a promising candidate
of advanced energy storage devices. However, its safety and stability are challenged by …