M-BDC (M = Co and/ or Fe) MOFs as effective catalysts for hydrogen generation via hydrolysis of sodium borohydride

“…S2d†) shows the decomposition temperature appeared at 220 °C and 330 °C for the samples of Fe-BDC and the Li-IL@Fe-BDC composite, which indicates that the Li-IL@Fe-BDC composite can greatly enhance the thermal stability. The decomposition of Fe-DBC at 220 °C may be due to the molecular degradation of the ligand terephthalic acid; 35 the thermal stability of Li-IL@Fe-BDC composites is further improved by the addition of Li-ILs, and there is a slight mass loss at around 330 °C, which may be because the terephthalic acid in the system starts to degrade, and at 400 °C, the Li-ILs decompose. BET curves (Fig.…”

Enhanced lithium-ion conductivity and interficial stability of Li-IL@Fe-BDC composite polymer electrolytes for solid-state lithium metal batteries

“…S2d†) shows the decomposition temperature appeared at 220 °C and 330 °C for the samples of Fe-BDC and the Li-IL@Fe-BDC composite, which indicates that the Li-IL@Fe-BDC composite can greatly enhance the thermal stability. The decomposition of Fe-DBC at 220 °C may be due to the molecular degradation of the ligand terephthalic acid; 35 the thermal stability of Li-IL@Fe-BDC composites is further improved by the addition of Li-ILs, and there is a slight mass loss at around 330 °C, which may be because the terephthalic acid in the system starts to degrade, and at 400 °C, the Li-ILs decompose. BET curves (Fig.…”

Enhanced lithium-ion conductivity and interficial stability of Li-IL@Fe-BDC composite polymer electrolytes for solid-state lithium metal batteries

“…[8] In the recent years, nitrogen (N) and boron (B) containing chemical storage materials to bind H 2 chemically have found widespread use and application. Such compounds include ammoniaÀ borane (AB, NH 3 BH 3 ), [9] hydrazine borane (HB, N 2 H 4 BH 3 ), [10] methylamine borane (MeAB, CH 3 NH 2 BH 3 ), [11] dimethylamine borane (DMAB, (CH 3 ) 2 NHBH 3 )), [12] sodium borohydride (SBH, NaBH 4 ), [13] and ethylenediamine bisborane (EDAB, C 2 H 8 N 2 (BH 3 ) 2 ). [14] Although morpholineÀ borane (C 4 H 12 BNO, denoted as MB) has a lower H 2 content than some of the others listed above, H 2 production from MB is relatively cheaper since MB is one of the cheapest available boron-containing storage materials along with DMAB and NaBH 4 .…”

Hydrogen Production from Morpholine−Borane by Aluminum Oxide‐Supported Pd Nanoparticles

“…Com base na Figura 9, observou-se um importante evento térmico em 320 °C, com uma perda significativa de massa de mais de 90%. Essa perda significativa de massa pode estar associada à degradação térmica do ligante orgânico (BDC), resultando apenas no óxido metálico residual (Getachew et al, 2014;Alaide de Oliveira et al, 2023). A alta temperatura necessária para a ocorrência da degradação indica que o material possui uma satisfatória estabilidade térmica.…”

Desenvolvimento de nova rede metalorgânica à base de níquel [Ni(BDC)x]n para extração de corantes em pescado