High-fidelity analysis of translocating biomolecules through nanopores demands shortening the nanocapillary length to a minimal value. Existing nanopores and capillaries, however, inherit a finite length from the parent membranes. Here, nanocapillaries of zero depth are formed by dissolving two superimposed and crossing metallic nanorods, molded in polymeric slabs. In an electrolyte, the interface shared by the crossing fluidic channels is mathematically of zero thickness and defines the narrowest constriction in the stream of ions through the nanopore device. This novel architecture provides the possibility to design nanopore fluidic channels, particularly with a robust 3D architecture maintaining the ultimate zero thickness geometry indep...
Nanoscopic pores in biological systems – cells, for example – are responsible for regulating the tra...
Nanopore sensing relies on the application of a voltage across a nano-scale aperture fabricated in a...
Solid-state nanopores are a nanofluidic platform with unique advantages for single-molecule analysis...
High-fidelity analysis of translocating biomolecules through nanopores demands shortening the nanoca...
Nanopores are nanometer sized openings that are the connection between two electrolyte filled reserv...
Development of sophisticated tools capable of manipulating molecules at their own length scale enabl...
Biological nanopores are an essential element to the success of the lipid bilayer that makes life po...
Nanopores are small (1–100 nm diameter) holes/channels formed in biological membranes (Fig. 1) or fa...
Over the last five years, solid state nanopore technology advanced to rival biological pores as a pl...
Solid-state nanopores of on-demand dimensions and shapes can facilitate desired sensor functions. Ho...
Treballs Finals de Grau de Física, Facultat de Física, Universitat de Barcelona, Curs: 2018, Tutor: ...
A nanopore is the ultimate analytical tool. It can be used to detect DNA, RNA, oligonucleotides, and...
Advances in nanofabrication techniques have allowed producing fluidic channels of sub-100nm dimensio...
Nanopore sensors provide a unique platform to detect individual nucleic acids, proteins, and other b...
The 21st century marks the defining point of human history in terms of technological advancement. I...
Nanoscopic pores in biological systems – cells, for example – are responsible for regulating the tra...
Nanopore sensing relies on the application of a voltage across a nano-scale aperture fabricated in a...
Solid-state nanopores are a nanofluidic platform with unique advantages for single-molecule analysis...
High-fidelity analysis of translocating biomolecules through nanopores demands shortening the nanoca...
Nanopores are nanometer sized openings that are the connection between two electrolyte filled reserv...
Development of sophisticated tools capable of manipulating molecules at their own length scale enabl...
Biological nanopores are an essential element to the success of the lipid bilayer that makes life po...
Nanopores are small (1–100 nm diameter) holes/channels formed in biological membranes (Fig. 1) or fa...
Over the last five years, solid state nanopore technology advanced to rival biological pores as a pl...
Solid-state nanopores of on-demand dimensions and shapes can facilitate desired sensor functions. Ho...
Treballs Finals de Grau de Física, Facultat de Física, Universitat de Barcelona, Curs: 2018, Tutor: ...
A nanopore is the ultimate analytical tool. It can be used to detect DNA, RNA, oligonucleotides, and...
Advances in nanofabrication techniques have allowed producing fluidic channels of sub-100nm dimensio...
Nanopore sensors provide a unique platform to detect individual nucleic acids, proteins, and other b...
The 21st century marks the defining point of human history in terms of technological advancement. I...
Nanoscopic pores in biological systems – cells, for example – are responsible for regulating the tra...
Nanopore sensing relies on the application of a voltage across a nano-scale aperture fabricated in a...
Solid-state nanopores are a nanofluidic platform with unique advantages for single-molecule analysis...