Flexible, Water-Resistant and Air-Stable LiBH(4) Nanoparticles Loaded Melamine Foam With Improved Dehydrogenation

Flexible, water-resistant, and air-stable hydrogen storage material (named PMMA-LiBH(4)/GMF), consisting of LiBH(4) nanoparticles confined by poly (methylmethacrylate) (PMMA) and reduced graphene oxide (rGO) modified melamine foam (GMF), were prepared by a facile method. PMMA-LiBH(4)/GMF can recover original shape after compression at the strain of 50% and exhibits highly hydrophobic property (water contact angle of 123°). Owing to the highly hydrophobic property and protection of PMMA, PMMA-LiBH(4)/GMF demonstrates outstanding water-resistance and air-stability. Significantly, the onset dehydrogenation temperature of PMMA-LiBH(4)/GMF at first step is reduced to 94°C, which is 149°C less than that of LiBH(4)/GMF, and the PMMA-LiBH(4)/GMF desorbs 2.9 wt% hydrogen within 25 min at 250°C, which is obviously more than the dehydrogenation amount of LiBH(4)/GMF under the same conditions. It's our belief that the flexible, water-resistant and air-stable PMMA-LiBH(4)/GMF with a simple preparation route will provide a new avenue to the research of hydrogen storage materials.