The miniaturization of electronics is a technique that holds a lot of potential in improving system performance in a variety of applications. The simultaneous miniaturization of sensors into the nano-scale has provided new ways to probe biological systems. Careful co-design of these electronics and sensors can unlock measurements and experiments that would otherwise be impossible to achieve. This thesis describes the design of two such instrumentation amplifiers and shows that significant gains in temporal resolution and noise performance are possible through careful optimization. A custom integrated amplifier is developed for improving the temporal resolution in nanopore recordings. The amplifier is designed in a commercial 0.18 μm c...
Abstract—Over the past two decades, nanopores have been a promising technology for next generation d...
Bioelectronic sensors represent a major field of interest in current research. Their ability to dete...
Transport processes through ion-channel proteins, protein pores, or solid-state nanopores are tradit...
Single-molecule measurements often exhibit weak signals and fast kinetics, making them particularly ...
Electrical signals produced in the human body can be used for medical diagnosis and research, treatm...
Journal ArticleThere is a need among scientists and clinicians for lownoise, low-power biosignal amp...
Journal ArticleThere is a need among scientists and clinicians for low-noise low-power biosignal am...
Data analysis, storage and communication has become a very important subject for research nowadays. ...
The recording of neural signals with small monolithically integrated amplifiers is of high interest ...
The purpose of this research project is to revise a previous design of a modular data collection dev...
Nanopores have seen broad applicability as single-molecule sensors because of their spatiotemporally...
abstract: Analysing and measuring of biological or biochemical processes are of utmost importance fo...
The electrophysiological observation of neurological cells has allowed much knowledge to be gathered...
There is a need to optimize processing circuitry for sensor interfaces in both modern electronics an...
Amplifiers for biomedical applications have been a subject of study for more than a century. However...
Abstract—Over the past two decades, nanopores have been a promising technology for next generation d...
Bioelectronic sensors represent a major field of interest in current research. Their ability to dete...
Transport processes through ion-channel proteins, protein pores, or solid-state nanopores are tradit...
Single-molecule measurements often exhibit weak signals and fast kinetics, making them particularly ...
Electrical signals produced in the human body can be used for medical diagnosis and research, treatm...
Journal ArticleThere is a need among scientists and clinicians for lownoise, low-power biosignal amp...
Journal ArticleThere is a need among scientists and clinicians for low-noise low-power biosignal am...
Data analysis, storage and communication has become a very important subject for research nowadays. ...
The recording of neural signals with small monolithically integrated amplifiers is of high interest ...
The purpose of this research project is to revise a previous design of a modular data collection dev...
Nanopores have seen broad applicability as single-molecule sensors because of their spatiotemporally...
abstract: Analysing and measuring of biological or biochemical processes are of utmost importance fo...
The electrophysiological observation of neurological cells has allowed much knowledge to be gathered...
There is a need to optimize processing circuitry for sensor interfaces in both modern electronics an...
Amplifiers for biomedical applications have been a subject of study for more than a century. However...
Abstract—Over the past two decades, nanopores have been a promising technology for next generation d...
Bioelectronic sensors represent a major field of interest in current research. Their ability to dete...
Transport processes through ion-channel proteins, protein pores, or solid-state nanopores are tradit...