Integrated Graphene (iGii) - Revolutionsing Functional Devices : A Scalable 3D Carbon Nanomaterial Platform for Next-Generation Applications
Thursday, December 11, 2025 1:15 PM to 1:35 PM · 20 min. (Africa/Abidjan)
Innovation Day December 2025
TechBlick Event
Information
Three-dimensional (3D) carbon nanomaterials are transforming the landscape of functional materials, unlocking new possibilities in sectors ranging from diagnostics and energy storage to smart sensing and thermal management. Their unique three-dimensional architecture and tuneable properties enable the development of high-performance, cost-effective, and sustainable solutions that are compatible with existing technology systems.
At the forefront of this innovation is Gii, our proprietary 3D carbon material platform, engineered for seamless integration across diverse application systems. This presentation will showcase recent breakthroughs in Gii’s deployment across a spectrum of use cases, including:
Electrochemical sensing: for real-time diagnostics and environmental monitoring
Printed batteries: for flexible, lightweight energy storage, IoT, wearables, and digital health applications
Pressure and strain sensors: for wearable devices and occupancy monitoring
Microheaters: for localised thermal control in biosensors, microreactors and other compact systems
Catalytic platforms: for energy and chemical processing applications
Gii™ not only addresses the limitations of conventional material system, such as durability, high cost, and limited scalability, but also delivers superior performance metrics:
High surface area: specific electroactive surface area of 3 – 4 times the geometric area
Electrical conductivity: 5 – 10 Ω/square at room temperature
Functionalisation: can be functionalised with metal oxides, bioreceptors, ion-selective membranes
Thermal conductivity: 3.8 W/mK and temperature coefficient of resistance of 0.0013/°C to -0.000488/°C)
Chemical stability: compatible with most organic and aqueous solutions, stable in solutions from pH 0 – pH 10
Anti-fouling: no performance loss after 30 min exposure in whole milk
Additionally, Gii is manufactured using roll-to-roll and roll-to-sheet compatible, low-temperature fabrication processes, enabling scalable production capable of producing 80 million parts per year per machine. This positions Gii as a commercially viable solution for industries seeking to accelerate product innovation without compromising on performance, cost or sustainability.
Join our presentation to explore how Gi is redefining advanced materials for next-generation devices and how your industry can benefit from its potential.
At the forefront of this innovation is Gii, our proprietary 3D carbon material platform, engineered for seamless integration across diverse application systems. This presentation will showcase recent breakthroughs in Gii’s deployment across a spectrum of use cases, including:
Electrochemical sensing: for real-time diagnostics and environmental monitoring
Printed batteries: for flexible, lightweight energy storage, IoT, wearables, and digital health applications
Pressure and strain sensors: for wearable devices and occupancy monitoring
Microheaters: for localised thermal control in biosensors, microreactors and other compact systems
Catalytic platforms: for energy and chemical processing applications
Gii™ not only addresses the limitations of conventional material system, such as durability, high cost, and limited scalability, but also delivers superior performance metrics:
High surface area: specific electroactive surface area of 3 – 4 times the geometric area
Electrical conductivity: 5 – 10 Ω/square at room temperature
Functionalisation: can be functionalised with metal oxides, bioreceptors, ion-selective membranes
Thermal conductivity: 3.8 W/mK and temperature coefficient of resistance of 0.0013/°C to -0.000488/°C)
Chemical stability: compatible with most organic and aqueous solutions, stable in solutions from pH 0 – pH 10
Anti-fouling: no performance loss after 30 min exposure in whole milk
Additionally, Gii is manufactured using roll-to-roll and roll-to-sheet compatible, low-temperature fabrication processes, enabling scalable production capable of producing 80 million parts per year per machine. This positions Gii as a commercially viable solution for industries seeking to accelerate product innovation without compromising on performance, cost or sustainability.
Join our presentation to explore how Gi is redefining advanced materials for next-generation devices and how your industry can benefit from its potential.
