High temperature‐induced myoglobin‐mimic catalytic structure having high axial ligand content for one‐compartment hydrogen peroxide fuel cells

Abstract: A facile and inexpensive method of fabricating a myoglobin-mimic nanostructure is introduced by evaluating the influence of temperature conditions on the axial coordination between the Fe core of hemin and amine of polyethyleneimine (PEI). Through the high-temperature (100 C) synthesis condition, more hemin molecules are strongly attached to the carbon nanotube and PEI composite owing to the amide bond formation, whereas the energy distribution of hemin is deformed, and the electrical connection is improved by… Show more

“…[133][134][135][136][137][138] The anode and cathode reactions of a one-compartment H 2 O 2 fuel cell are given in Scheme 9. [133][134][135][136][137][138] The theoretical output potential is 1.09 V, which is comparable to those of a hydrogen fuel cell (1.23 V) and a direct methanol fuel cell (1.21 V). 133 Fig.…”

“…[127][128][129][130][131][132] H 2 O 2 formed in photocatalytic H 2 O oxidation in combination with two-electron/two-proton O 2 reduction is used in a membraneless H 2 O 2 fuel cell to generate electricity. [133][134][135][136][137][138] The anode and cathode reactions of a one-compartment H 2 O 2 fuel cell are given in Scheme 9. [133][134][135][136][137][138] The theoretical output potential is 1.09 V, which is comparable to those of a hydrogen fuel cell (1.23 V) and a direct methanol fuel cell (1.21 V).…”

Hydrogen storage as liquid solar fuels

“…[133][134][135][136][137][138] The anode and cathode reactions of a one-compartment H 2 O 2 fuel cell are given in Scheme 9. [133][134][135][136][137][138] The theoretical output potential is 1.09 V, which is comparable to those of a hydrogen fuel cell (1.23 V) and a direct methanol fuel cell (1.21 V). 133 Fig.…”

“…[127][128][129][130][131][132] H 2 O 2 formed in photocatalytic H 2 O oxidation in combination with two-electron/two-proton O 2 reduction is used in a membraneless H 2 O 2 fuel cell to generate electricity. [133][134][135][136][137][138] The anode and cathode reactions of a one-compartment H 2 O 2 fuel cell are given in Scheme 9. [133][134][135][136][137][138] The theoretical output potential is 1.09 V, which is comparable to those of a hydrogen fuel cell (1.23 V) and a direct methanol fuel cell (1.21 V).…”

Hydrogen storage as liquid solar fuels

Two-dimensional polymeric cobalt phthalocyanine synthesized by microwave irradiation and its use for continuous glucose monitoring

Microwave-assisted synthesis of P-doped and O-rich graphitic carbon catalyst for vanadium redox flow batteries