Maxence Menétrey
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View article: On the Resolution Limit of Electrohydrodynamic Redox 3D Printing
On the Resolution Limit of Electrohydrodynamic Redox 3D Printing Open
Additive manufacturing (AM) will empower the next breakthroughs in nanotechnology by combining unmatched geometrical freedom with nanometric resolution. Despite recent advances, no micro‐AM technique has been able to synthesize functional …
View article: Nanodroplet Flight Control in Electrohydrodynamic Redox 3D Printing
Nanodroplet Flight Control in Electrohydrodynamic Redox 3D Printing Open
Electrohydrodynamic 3D printing is an additive manufacturing technique with enormous potential in plasmonics, microelectronics, and sensing applications thanks to its broad material palette, high voxel deposition rate, and compatibility wi…
View article: Nanodroplet Flight Control in Electrohydrodynamic Redox 3D Printing
Nanodroplet Flight Control in Electrohydrodynamic Redox 3D Printing Open
Electrohydrodynamic 3D printing is an additive manufacturing technique with enormous potential in plasmonics, microelectronics, and sensing applications thanks to its broad material palette, high voxel deposition rate, and compatibility wi…
View article: Micron-scale additive manufacturing of binary and ternary alloys by electrohydrodynamic redox 3D printing
Micron-scale additive manufacturing of binary and ternary alloys by electrohydrodynamic redox 3D printing Open
Across disciplines and length scales, alloying of metals is a common and necessary strategy to optimise materials performance. While the manufacturing of alloys in bulk and thin film form is well understood, the fabrication of alloyed 3D n…
View article: Micron-scale additive manufacturing of binary and ternary alloys by electrohydrodynamic redox 3D printing
Micron-scale additive manufacturing of binary and ternary alloys by electrohydrodynamic redox 3D printing Open
Across disciplines and length scales, alloying of metals is a common and necessary strategy to optimise materials performance. While the manufacturing of alloys in bulk and thin film form is well understood, the fabrication of alloyed 3D n…
View article: Microstructure-driven electrical conductivity optimization in additively manufactured microscale copper interconnects
Microstructure-driven electrical conductivity optimization in additively manufactured microscale copper interconnects Open
Fluid Force Microscopy (FluidFM) and Electrohydrodynamic Redox Printing (EHD-RP) allow for the direct fabrication of conductive copper microwires on heterogeneous substrates specifically designed for electrical characterization.
View article: Micron-Scale Additive Manufacturing of Binary and Ternary Alloys by Electrohydrodynamic Redox 3d Printing
Micron-Scale Additive Manufacturing of Binary and Ternary Alloys by Electrohydrodynamic Redox 3d Printing Open
View article: Targeted Additive Micromodulation of Grain Size in Nanocrystalline Copper Nanostructures by Electrohydrodynamic Redox 3D Printing (Small 51/2022)
Targeted Additive Micromodulation of Grain Size in Nanocrystalline Copper Nanostructures by Electrohydrodynamic Redox 3D Printing (Small 51/2022) Open
Nanocrystalline Copper Nanostructures In article 2205302, Maxence Menétrey and co-workers present a novel approach for microstructure control in nanopillars synthesized by electrohydrodynamic redox 3D printing. Variations in the deposition…
View article: Targeted Additive Micromodulation of Grain Size in Nanocrystalline Copper Nanostructures by Electrohydrodynamic Redox 3D Printing
Targeted Additive Micromodulation of Grain Size in Nanocrystalline Copper Nanostructures by Electrohydrodynamic Redox 3D Printing Open
The control of materials’ microstructure is both a necessity and an opportunity for micro/nanometer‐scale additive manufacturing technologies. On the one hand, optimization of purity and defect density of printed metals is a prerequisite f…
View article: Synthesis of Loop Poly(Methyl Methacrylate) Brushes via Chain-End Postpolymerization Modification
Synthesis of Loop Poly(Methyl Methacrylate) Brushes via Chain-End Postpolymerization Modification Open
Polymer brushes are typically densely grafted assemblies of polymer chains that are tethered via one end group to a solid substrate. Anchoring linear polymer chains via both end groups to a surface results in loop-type polymer brushes. Alt…