Add to ORKGA key goal of modern bioscience is to monitor interactions between biomolecules with high sensitivity and high selectivity in real time and the ultimate aim is to detect single-molecule events in vivo. Recently single-molecule technology platforms, including optical and electrical methods, have been...A key goal of modern bioscience is to monitor interactions between biomolecules with high sensitivity and high selectivity in real time and the ultimate aim is to detect single-molecule events in vivo. Recently single-molecule technology platforms, including optical and electrical methods, have been...国家纳米科学中心
Beyond being the repository of genetic information, DNA is playing an increasingly important role as...
Experimental techniques that interface single biomolecules directly with microelectronic systems are...
ABSTRACT: Electrochemical DNA-based (E-DNA) sensors are utilized to detect a variety of targets incl...
Monitoring complex interactions of biological systems at the molecular level provides new opportunit...
Molecular diagnostics is a fast growing field with new technologies being developed constantly. Ther...
The development of methods for detecting and manipulating matter at the level of individual macromol...
A comprehensive detection of a wide variety of diagnostic markers is required for the realization of...
Nanoscale materials provide new opportunities to interface solid-state electronics with biomolecules...
The ongoing discoveries of RNA modalities (for example, non-coding, micro and enhancer) have resulte...
A universal lithographic methodology for creating functional single-molecule devices based on carbon...
Single-molecule techniques have shifted the paradigm of biological measurements from ensemble measur...
Detecting molecules and their interactions lies at the heart of all biosensor devices, which have im...
Electrochemical bioanalytical sensors with oligonucleotide transducer molecules have been recently e...
DNA is an attractive material for a range of applications in nanoscience and nanotechnology, and it ...
The search for increased sensitivity ofbio-analytical techniques has recently shifted from signal ge...
Beyond being the repository of genetic information, DNA is playing an increasingly important role as...
Experimental techniques that interface single biomolecules directly with microelectronic systems are...
ABSTRACT: Electrochemical DNA-based (E-DNA) sensors are utilized to detect a variety of targets incl...
Monitoring complex interactions of biological systems at the molecular level provides new opportunit...
Molecular diagnostics is a fast growing field with new technologies being developed constantly. Ther...
The development of methods for detecting and manipulating matter at the level of individual macromol...
A comprehensive detection of a wide variety of diagnostic markers is required for the realization of...
Nanoscale materials provide new opportunities to interface solid-state electronics with biomolecules...
The ongoing discoveries of RNA modalities (for example, non-coding, micro and enhancer) have resulte...
A universal lithographic methodology for creating functional single-molecule devices based on carbon...
Single-molecule techniques have shifted the paradigm of biological measurements from ensemble measur...
Detecting molecules and their interactions lies at the heart of all biosensor devices, which have im...
Electrochemical bioanalytical sensors with oligonucleotide transducer molecules have been recently e...
DNA is an attractive material for a range of applications in nanoscience and nanotechnology, and it ...
The search for increased sensitivity ofbio-analytical techniques has recently shifted from signal ge...
Beyond being the repository of genetic information, DNA is playing an increasingly important role as...
Experimental techniques that interface single biomolecules directly with microelectronic systems are...
ABSTRACT: Electrochemical DNA-based (E-DNA) sensors are utilized to detect a variety of targets incl...