A5069259173- Advanced Sensor and Energy Harvesting Materials
- MXene and MAX Phase Materials
- Conducting polymers and applications
- Graphene and Nanomaterials Applications
- Advanced ceramic materials synthesis
- Polymer composites and self-healing
- Additive Manufacturing and 3D Printing Technologies
- Graphene research and applications
- Green IT and Sustainability
- Advanced Materials and Mechanics
- Mechanical Behavior of Composites
- Dielectric materials and actuators
- Analytical Chemistry and Sensors
Queen Mary University of London
2022-2024
Herein we present the transformative effects of multiwall carbon nanotube (MWCNT)-MXene hybrid nanofillers on mechanical, electrical, and piezoresistive properties resulting epoxy nanocomposites. The utilization MWCNT-MXene hybrids significantly improves dispersion fillers within matrix, effectively eliminating agglomeration individual improving stress transfer efficiency. With just 1 wt % hybrid, observed improvements in Young's modulus flexural modulus, which increased by 31 28%,...
Flexible strain sensors have been subject to intense research efforts in recent years, an attempt overcome the limitations of their rigid counterparts and find use demanding applications. In this work, effective calibration resistive-type, stretchable is discussed. A new model for piezoresistive response polymer nanocomposite presented which facilitates over full conducting range material. This offers potential vastly improve practical working made using soft conductive nanocomposites, as...
Abstract Developing materials for electronics and sensing based on abundant degradable is fundamental transitioning both fields toward a more sustainable future. In the long run, this approach can unleash these from using petroleum‐derived and/or scarce resources, possibly facilitating electronic waste (e‐waste) management at same time. Starch, one of most versatile natural polymers, has shown great potential in fabrication degradable/transient devices. work, electrically conductive...
The ability to shape and program remotely contactlessly from two-dimensional (2D) flat multilayer materials into three-dimensional (3D) structures functional devices could be ideal for applications like space missions, environmental remediation minimally invasive surgery. However, achieving a fast accurate deployment of complex 3D shapes contaclessly at low energy consumption, while embedding number physical properties functionalities, remains very challenging. Herein, strategy widen the...
Nanoscience at times can seem out of reach to the developing world and general public, with much equipment expensive knowledge seemingly esoteric nonexperts. Using only cheap, everyday household items, accessible research real applications be shown. Here, graphene suspensions were produced using pencil lead, tap water, kitchen appliances, soaps coffee filters, a childrens glue based nanocomposite for highly sensitive pulse measurements demonstrated.