Add to ORKGCatalytic engines can use hydrogen peroxide as a chemical fuel in order to drive motion at the microscale. The chemo-mechanical actuation is a complex mechanism based on the interrelation between catalytic reactions and electro-hydrodynamics phenomena. We studied catalytic micropumps using fluorescence confocal microscopy to image the concentration of protons in the liquid. In addition, we measured the motion of particles with different charges in order to map the spatial distributions of the electric field, the electrostatic potential and the fluid flow. The combination of these two techniques allows us to contrast the gradient of the concentration of protons against the spatial variation in the electric field. We present numerical simulat...
Proton exchange membrane fuel cells convert chemical energy into electrical energy at high efficienc...
Electroosmotic flow (EOF) is the transport of fluid under applied electric field across a microfluid...
Immobilized electrocatalytic surfaces are capable of generating reaction-driven fluid flow by electr...
Catalytic engines can use hydrogen peroxide as a chemical fuel in order to drive motion at the micro...
The development of autonomous micro/nanomotors driven by self-generated chemical gradients is a topi...
The development of effective autonomous micro- and nanomotors relies on controlling fluid motion at ...
The development of autonomous micro/nanomotors driven by self-generated chemical gradients is a topi...
Hydrogen generation by water electrolysis is promising for energy storage, and imaging the reaction ...
Chemotaxis in practice: Two different artificial catalytic micromotors (tubular and spherical, see s...
By varying the total and the relative concentrations of a strong acid (HClO4) and a pH-sensitive flu...
We report a simple yet highly efficient chemical motor that can be controlled with visible light. Th...
The effect of varying pH on electrokinetically driven flow has been investigated by an optical measu...
In heterogeneous catalysis research, the reactivity of individual nanofacets of single particles is ...
Bimetallic Pt-Au nanorods in form of microswimmers within an aqueous solution exhibit self-propulsio...
The application of fluorescence confocal laser scanning microscopy (CLSM) to quantify three-dimensio...
Proton exchange membrane fuel cells convert chemical energy into electrical energy at high efficienc...
Electroosmotic flow (EOF) is the transport of fluid under applied electric field across a microfluid...
Immobilized electrocatalytic surfaces are capable of generating reaction-driven fluid flow by electr...
Catalytic engines can use hydrogen peroxide as a chemical fuel in order to drive motion at the micro...
The development of autonomous micro/nanomotors driven by self-generated chemical gradients is a topi...
The development of effective autonomous micro- and nanomotors relies on controlling fluid motion at ...
The development of autonomous micro/nanomotors driven by self-generated chemical gradients is a topi...
Hydrogen generation by water electrolysis is promising for energy storage, and imaging the reaction ...
Chemotaxis in practice: Two different artificial catalytic micromotors (tubular and spherical, see s...
By varying the total and the relative concentrations of a strong acid (HClO4) and a pH-sensitive flu...
We report a simple yet highly efficient chemical motor that can be controlled with visible light. Th...
The effect of varying pH on electrokinetically driven flow has been investigated by an optical measu...
In heterogeneous catalysis research, the reactivity of individual nanofacets of single particles is ...
Bimetallic Pt-Au nanorods in form of microswimmers within an aqueous solution exhibit self-propulsio...
The application of fluorescence confocal laser scanning microscopy (CLSM) to quantify three-dimensio...
Proton exchange membrane fuel cells convert chemical energy into electrical energy at high efficienc...
Electroosmotic flow (EOF) is the transport of fluid under applied electric field across a microfluid...
Immobilized electrocatalytic surfaces are capable of generating reaction-driven fluid flow by electr...