Add to ORKGGas sensing is one of the proposed application field of memristive devices. We used a crossbar array of memristors as gas sensor using the HP labs fabricated TiO2 based memristor model in an attempt to improve sensing accuracy. We introduced the possibility of reliable multiple gases detection using multiple rows of memristors as separate sensor in a crossbar array. Our experimental results show that an array of memristors can minimise measurement errors as well as provide a good redundancy measure during gas sensing. Measurements taken from the sensors are also not affected by alternate current paths problem often experienced in crossbar architecture
Developing a better understanding of gas-metal oxide interactions as well as improving the output pe...
Semiconductor gas sensors found their way into several applications in recent years. The development...
In this work 3 x 3 crossbar arrays of titanium oxide were fabricated and tested for non-volatile mem...
Gas sensing is one of the proposed application field of memristive devices. We used a crossbar array...
Recent research shows ever growing interest in the potential applications of memristive devices. Amo...
Memristive devices, traditionally considered for memory, logic, and neuromorphic systems, are exhibi...
The conventional transistor-based computing landscape is already undergoing dramatic changes. While ...
International audienceIn both the literature and industry, there are various examples of gas detecti...
Memristors are an attractive option for use in future architectures due to their non-volatility, hig...
A sensor comprises a plurality of sensor elements arranged in an array . Each sensor element is memr...
Resistive memory, also known as memristor, is an emerging potential successor to traditional CMOS ch...
This paper presents a monolithic 4 x 4 tin oxide gas sensor array together with on-chip multiplexing...
Resistive memory, also known as memristor, is an emerging potential successor to traditional CMOS ch...
International audienceOver the past 20 years, there has been growing development in gas detection sy...
Selective gas leakage detection is crucial due to the adverse effects of harmful gases present in th...
Developing a better understanding of gas-metal oxide interactions as well as improving the output pe...
Semiconductor gas sensors found their way into several applications in recent years. The development...
In this work 3 x 3 crossbar arrays of titanium oxide were fabricated and tested for non-volatile mem...
Gas sensing is one of the proposed application field of memristive devices. We used a crossbar array...
Recent research shows ever growing interest in the potential applications of memristive devices. Amo...
Memristive devices, traditionally considered for memory, logic, and neuromorphic systems, are exhibi...
The conventional transistor-based computing landscape is already undergoing dramatic changes. While ...
International audienceIn both the literature and industry, there are various examples of gas detecti...
Memristors are an attractive option for use in future architectures due to their non-volatility, hig...
A sensor comprises a plurality of sensor elements arranged in an array . Each sensor element is memr...
Resistive memory, also known as memristor, is an emerging potential successor to traditional CMOS ch...
This paper presents a monolithic 4 x 4 tin oxide gas sensor array together with on-chip multiplexing...
Resistive memory, also known as memristor, is an emerging potential successor to traditional CMOS ch...
International audienceOver the past 20 years, there has been growing development in gas detection sy...
Selective gas leakage detection is crucial due to the adverse effects of harmful gases present in th...
Developing a better understanding of gas-metal oxide interactions as well as improving the output pe...
Semiconductor gas sensors found their way into several applications in recent years. The development...
In this work 3 x 3 crossbar arrays of titanium oxide were fabricated and tested for non-volatile mem...