Add to ORKGAlumina nanopores seem to be very promising concerning many applications, such as DNA analysis 1‐2, separation of molecules 3‐4 or fabrication of nanopillars 5‐6. The nanopores are made by anodization, which is a really simple fabrication process requiring only an electrochemical cell. It makes possible to fabricate a large number of highly reproducible nanostructures for a low cost. While much research has been done on high aspect‐ratio nanopores, this project focuses on low aspect‐ratio nanopore arrays, for etch mask applications. The aim is to transfer the nanoporous pattern to silicon, and thus obtain a heterostructure that might be used as a nanofluidic diode. This aim of this semester project has been first to develop an efficient met...
Solid-state nanopores fabricated by a high-intensity electron beam in ceramic membranes can be fine-...
For biomolecule sensing purposes a solid-state nanopore platform based on silicon has certain advant...
The fabrication of synthetic nanopores with dimensional and electrical properties similar to organic...
In this project, nanopore arrays have been fabricated on bulk silicon and on silicon membranes by el...
Nanopores are of great interest in study of DNA sequencing, protein profiling and power generation. ...
Nanopore-based single-molecule analysis of biomolecules such as DNA and proteins is a subject of str...
A free-standing, bidirectionally permeable and ultra-thin (500-1000 nm) porous anodic alumina membra...
In this paper an easy, reproducible and inexpensive technique for the production of solid state nano...
Nanopore sensors have developed into powerful tools for single-molecule studies since their inceptio...
International audienceIn this work, perfectly organized triangular arrays of vertical nanopores are ...
In this work an easy, reproducible and inexpensive technique for the production of solid state nanop...
We report on the fabrication of periodic arrays of deep nanopores with high aspect ratios in crystal...
Anodic aluminum oxide (AAO) has been fabricated in the 0.3 M oxalic acid at voltage range 20-60 V an...
We describe a simple but reliable approach to shrink silicon nanopores with nanometer precision for ...
International audienceThis paper highlights that combining laser interference lithography and electr...
Solid-state nanopores fabricated by a high-intensity electron beam in ceramic membranes can be fine-...
For biomolecule sensing purposes a solid-state nanopore platform based on silicon has certain advant...
The fabrication of synthetic nanopores with dimensional and electrical properties similar to organic...
In this project, nanopore arrays have been fabricated on bulk silicon and on silicon membranes by el...
Nanopores are of great interest in study of DNA sequencing, protein profiling and power generation. ...
Nanopore-based single-molecule analysis of biomolecules such as DNA and proteins is a subject of str...
A free-standing, bidirectionally permeable and ultra-thin (500-1000 nm) porous anodic alumina membra...
In this paper an easy, reproducible and inexpensive technique for the production of solid state nano...
Nanopore sensors have developed into powerful tools for single-molecule studies since their inceptio...
International audienceIn this work, perfectly organized triangular arrays of vertical nanopores are ...
In this work an easy, reproducible and inexpensive technique for the production of solid state nanop...
We report on the fabrication of periodic arrays of deep nanopores with high aspect ratios in crystal...
Anodic aluminum oxide (AAO) has been fabricated in the 0.3 M oxalic acid at voltage range 20-60 V an...
We describe a simple but reliable approach to shrink silicon nanopores with nanometer precision for ...
International audienceThis paper highlights that combining laser interference lithography and electr...
Solid-state nanopores fabricated by a high-intensity electron beam in ceramic membranes can be fine-...
For biomolecule sensing purposes a solid-state nanopore platform based on silicon has certain advant...
The fabrication of synthetic nanopores with dimensional and electrical properties similar to organic...