Add to ORKGCarbon nanomaterials such as graphene exhibit unique material properties including high electrical conductivity, surface area, and biocompatibility that have the potential to significantly improve the performance of electrochemical sensors. Since in-field electrochemical sensors are typically disposable, they require materials that are amenable to low-cost, high-throughput, and scalable manufacturing. Conventional graphene devices based on low-yield chemical vapor deposition techniques are too expensive for such applications, while low-cost alternatives such as screen and inkjet printing do not possess sufficient control over electrode geometry to achieve favorable electrochemical sensor performance. In this work, aerosol jet printing (AJP)...
Printed electronics have led to new possibilities in the detection and quantification of a wide rang...
Histamine is a biogenic amine that can be found at high concentrations in rotten food such as fish ...
The design and application of an inkjet-printed electrochemically reduced graphene oxide microelectr...
Solution phase printing of graphene-based electrodes has recently become an attractive low-cost, sca...
Severe acute respiratory syndrome (SARS-CoV-2), the causative agent of the global pandemic, which ha...
In this work, I investigate and enhance the fundamental sensing properties of printed electronic nan...
In foods, high levels of biogenic amines (BA) are the result of microbial metabolism that could be a...
Inkjet printing of electrochemical sensors using a highly loaded mildly edge-oxidized graphene nanos...
The use of electrochemical sensors for the analysis of biological samples is nowadays widespread and...
The use of electrochemical sensors for the analysis of biological samples is nowadays widespread and...
Recent COVID-19 pandemic has claimed millions of lives due to lack of a rapid diagnostic tool. Globa...
K.S. Novoselov in his Nobel lecture (December 8, 2010), described graphene as “more than just a flat...
Graphene-based materials have captured considerable attention over the recent years due to their exc...
In this work, we present a reduced graphene oxide-based impedimetric histamine biosensor. Histamine ...
E. coil O157:H7 is an enterohemorrhagic bacteria responsible for serious foodborne outbreaks that ca...
Printed electronics have led to new possibilities in the detection and quantification of a wide rang...
Histamine is a biogenic amine that can be found at high concentrations in rotten food such as fish ...
The design and application of an inkjet-printed electrochemically reduced graphene oxide microelectr...
Solution phase printing of graphene-based electrodes has recently become an attractive low-cost, sca...
Severe acute respiratory syndrome (SARS-CoV-2), the causative agent of the global pandemic, which ha...
In this work, I investigate and enhance the fundamental sensing properties of printed electronic nan...
In foods, high levels of biogenic amines (BA) are the result of microbial metabolism that could be a...
Inkjet printing of electrochemical sensors using a highly loaded mildly edge-oxidized graphene nanos...
The use of electrochemical sensors for the analysis of biological samples is nowadays widespread and...
The use of electrochemical sensors for the analysis of biological samples is nowadays widespread and...
Recent COVID-19 pandemic has claimed millions of lives due to lack of a rapid diagnostic tool. Globa...
K.S. Novoselov in his Nobel lecture (December 8, 2010), described graphene as “more than just a flat...
Graphene-based materials have captured considerable attention over the recent years due to their exc...
In this work, we present a reduced graphene oxide-based impedimetric histamine biosensor. Histamine ...
E. coil O157:H7 is an enterohemorrhagic bacteria responsible for serious foodborne outbreaks that ca...
Printed electronics have led to new possibilities in the detection and quantification of a wide rang...
Histamine is a biogenic amine that can be found at high concentrations in rotten food such as fish ...
The design and application of an inkjet-printed electrochemically reduced graphene oxide microelectr...