Chemo-hydrodynamic waves drive the quasi-1D self-propulsion of an asymmetrically catalase-coated MXene sheet in H2O2, with the driving force identified as surface shear stress from the waves.
A.; Rossi, F., Transport -driven chemical oscillations: a review,Phys
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Simulations show that superposed Lotka-Volterra chemical oscillations can bias binary polymer elongation to produce catalytic loops and low-entropy informational sequences at higher rates than random selection.
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Quasi-one-dimensional motion of an active MXene sheet driven by chemo-hydrodynamic waves
Chemo-hydrodynamic waves drive the quasi-1D self-propulsion of an asymmetrically catalase-coated MXene sheet in H2O2, with the driving force identified as surface shear stress from the waves.
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Genetic Information as a "Chord" of Chemical Oscillations: Emergence of Catalyst-RNA Systems Driven by Superposed Rhythms
Simulations show that superposed Lotka-Volterra chemical oscillations can bias binary polymer elongation to produce catalytic loops and low-entropy informational sequences at higher rates than random selection.