In‐vitro digestibility and functional properties of Bambara groundnut (Vigna subterranean) (BG) flour, and its native and hydrothermally modified starches were investigated. The isolated native starch (BNS) was modified by annealing at 50°C for 48 hr (BAS), and heat‐moisture treated at 100°C for 16 hr at 25% moisture level (BHS). The crude protein of BG flour was 16.88%. The amylose content of the flour and native starch was 6.10% and 27.70%, respectively. Hydrothermal modification increased the gelatinization profile of the starch but reduces its pasting properties. Swelling and solubility of the flour and starches increased with increase in temperature. X‐ray diffraction revealed BNS and BAS exhibited “Type C” crystallinity pattern while BHS was “Type A.” The BNS granule was oval, its diameter between 22 and 30 μm, with no significant change in the morphology of BAS and BHS. The BG flour had 33% resistant starch and 11.63% digestible starch. Heat‐moisture treatment enhanced the resistant starch content of the native starch significantly.
Proton exchange membranes (PEM’s) are currently
under investigation
for membrane water electrolysis (PEMWE) to deliver efficient production
of the high purity hydrogen needed to supply emerging clean-energy
technologies such as hydrogen fuel cells. The microblock aromatic
ionomer described in this work achieves high mechanical strength in
an aqueous environment as a result of its designed, biphasic morphology
and displays many of the qualities required in a PEM. The new ionomer
membrane thus shows good proton conductivity (63 mS cm–1 at 80 °C and 100% RH), while retaining mechanical integrity
under high temperature, hydrated conditions. Testing in electrolysis
has shown good energy efficiency (1.67 V at 1 A cm–
2 and 80 °C, corresponding to 4 kWh/Nm3 of H2), making this ionomer a potential candidate for
commercial application in PEMWE.
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