Eloïse Bihar
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View article: Flexible Printed Gel Electrodes: Towards Living Plant Sensors for Nature-Based Environmental Monitoring
Flexible Printed Gel Electrodes: Towards Living Plant Sensors for Nature-Based Environmental Monitoring Open
Interfacing bioelectronic devices with plants can enable nature-based sensing networks through transduction of self-generated electrical signals from living plant nodes into real-time environmental data. A key challenge in developing such …
View article: Ultrathin Screen‐Printed Plant Wearable Capacitive Sensors for Environmental Monitoring
Ultrathin Screen‐Printed Plant Wearable Capacitive Sensors for Environmental Monitoring Open
Printable and wearable plant sensors offer an approach for collecting critical environmental data at high spatial resolution to understand plant conditions and aid land management practices. Here, screen printed capacitive devices that can…
View article: Computational and AI‐Driven Design of Hydrogels for Bioelectronic Applications
Computational and AI‐Driven Design of Hydrogels for Bioelectronic Applications Open
As hydrogel research progresses, hydrogels are becoming essential tools in bioelectronics and biotechnology. This review explores the diverse range of natural and synthetic gel materials tailored for specific bioelectronic applications, wi…
View article: Roadmap on printable electronic materials for next-generation sensors
Roadmap on printable electronic materials for next-generation sensors Open
The dissemination of sensors is key to realizing a sustainable, ‘intelligent’ world, where everyday objects and environments are equipped with sensing capabilities to advance the sustainability and quality of our lives—e.g. via smart homes…
View article: Self-healable stretchable printed electronic cryogels for in-vivo plant monitoring
Self-healable stretchable printed electronic cryogels for in-vivo plant monitoring Open
A key challenge in bioelectronics is to establish and improve the interface between electronic devices and living tissues, enabling a direct assessment of biological systems. Sensors integrated with plant tissue can provide valuable inform…
View article: Self-healable Printed Electronic Cryogels for Plant Monitoring
Self-healable Printed Electronic Cryogels for Plant Monitoring Open
In this work, we present a novel method for integrating printed electronic materials with biocompatible cryogels to form stable, implantable hydrogel-based bioelectronic devices that show stable long-term operation inside plant tissue. The…
View article: Novel Printed Soil Decomposition Sensors Based on Biodegradation
Novel Printed Soil Decomposition Sensors Based on Biodegradation Open
The in situ sensing of soil health through the monitoring of microbial and enzymatic activity has remained a challenge, and is typically limited to laboratory techniques that are time and labor intensive. In addition, results from assessme…
View article: A Transient Printed Soil Decomposition Sensor Based on a Biopolymer Composite Conductor
A Transient Printed Soil Decomposition Sensor Based on a Biopolymer Composite Conductor Open
Soil health is one of the key factors in determining the sustainability of global agricultural systems and the stability of natural ecosystems. Microbial decomposition activity plays an important role in soil health; and gaining spatiotemp…
View article: Inkjet-printed Ti<sub>3</sub>C<sub>2</sub>T<sub>x</sub> MXene electrodes for multimodal cutaneous biosensing
Inkjet-printed Ti<sub>3</sub>C<sub>2</sub>T<sub>x</sub> MXene electrodes for multimodal cutaneous biosensing Open
Among the existing two-dimensional materials, MXenes, i.e. transition metal carbides, nitrides and/or carbonitrides, stand out for their excellent electrochemical properties. Due to their high charge storage capacity, metal-like conductivi…
View article: Biosensors: Enzyme‐Free Detection of Glucose with a Hybrid Conductive Gel Electrode (Adv. Mater. Interfaces 1/2019)
Biosensors: Enzyme‐Free Detection of Glucose with a Hybrid Conductive Gel Electrode (Adv. Mater. Interfaces 1/2019) Open
In article number 1800928, Shofarul Wustoni, Sahika Inal and co-workers demonstrate an all-polymer based, non-enzymatic, glucose sensitive electroactive gel. The conducting gel, fabricated via a single#x02010;step electropolymerization, is…
View article: A fully inkjet-printed disposable glucose sensor on paper
A fully inkjet-printed disposable glucose sensor on paper Open
Inexpensive and easy-to-use diagnostic tools for fast health screening are imperative, especially in the developing world, where portability and affordability are a necessity. Accurate monitoring of metabolite levels can provide useful inf…
View article: Fully printed all-polymer tattoo/textile electronics for electromyography
Fully printed all-polymer tattoo/textile electronics for electromyography Open
Driven by the ever-growing needs for developing low cost, easy-to-use, noninvasive diagnostic tools, biomedical devices that can be integrated on human skin or textiles have begun to emerge. These "wearable" devices should couple electroni…
View article: Enzyme‐Free Detection of Glucose with a Hybrid Conductive Gel Electrode
Enzyme‐Free Detection of Glucose with a Hybrid Conductive Gel Electrode Open
Current assays for glucose monitoring rely predominantly on glucose oxidation‐catalyzing enzymes because of the high specificity of enzyme–substrate interactions. Enzymes are however expensive, suffer from instability during fabrication, o…
View article: Highly performance OECTs made by inkjet-printing for glucose sensing on paper
Highly performance OECTs made by inkjet-printing for glucose sensing on paper Open
Event Abstract Back to Event Highly performance OECTs made by inkjet-printing for glucose sensing on paper Eloise Bihar1, 2, 3, Anna Maria Pappa1, Christopher Davidson4, Vincenzo Curto1, Mohamed Saadaoui2 and George Malliaras1 1 Ecole Nati…