A brief history of biosensing
From rudimentary electrochemical setups to advanced multiplexed nanomaterial-based devices, biosensing has come a long way since its influential origins
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The measures of biosensor performance and how to improve accuracy
Engineers need a clear understanding of the significant measures of biosensor performance and the advantages of next-generation carbon-based nanomaterials
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The critical features of an advanced biosensor
Whilst the definition may sound straightforward, the functionality of today’s most advanced biosensors lies in the nuanced engineering of their core components
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Could nanomaterial-based biosensors help discover novel drugs?
Nanomaterial-based biosensors, particularly those built on carbon-based platforms, can change how we navigate drug discovery.
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The benefits of carbon nanostructures in biosensors and healthcare
We examine the strengths of carbon nanostructures and their impact on biosensor innovation, as well as their weaknesses and how to overcome them.
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The graphene problem - why biosensor manufacturers are yet to successfully leverage graphene
We go into detail over why commercial biosensor applications using graphene remain limited
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What are the most common challenges of leveraging carbon nanomaterials at scale?
Engineers need a clear understanding of the key hurdles in commercialising carbon nanomaterials for biosensor manufacturing
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What are the best nanomaterials for biosensors?
In order to choose the best nanomaterial for specific types of biosensors, engineers need to understand the features, benefits and challenges of each.
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What is a biosensor?
We go into detail surrounding biosensors, unpacking their components, use cases and application examples in different industries.
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What is an Electrochemical Biosensor?
We explore electrochemical biosensors, their unique features and why they have struggled to achieved widespread use
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