Full Description
This brief explores how bio‑inspired and biomimetic design principles are transforming next‑generation nanoenergy technologies, highlighting recent advances in hybrid nanomaterial systems for solar‑driven CO₂ reduction, triboelectric and multifunctional energy harvesters, and gel‑based and graphene‑enhanced materials engineered for high‑performance energy applications. It examines how nature‑inspired approaches enable integrated self‑powered systems from smart wearables to off‑grid rural solutions, while also addressing the sustainability, life‑cycle, and environmental implications of deploying these emerging energy materials. It is a useful resource for graduates, researchers and professionals working in the next generation energy materials.
Contents
Nanomaterial-Biological Hybrid Systems for Solar-Driven CO₂ Reduction: Recent Advances and Chemical Insights.- Biomimetic Approaches in Triboelectric Nanogenerators: Design, Principles and Emerging Applications.- Multifunctional Bio-Inspired Energy Harvesters: Harnessing Piezoelectric, Wind, and Acoustic Energy.- Bio-Inspired Gel Materials: Unlocking New Potentials in Advanced Energy Technologies.- Bio-Inspired Engineering of Graphene Nanocomposites for High-Performance Energy Applications.- Bio-inspired Nanomaterial Technologies for Integrated Self-Powered Systems: From Smart Wearables to Off-Grid Rural Applications.- Sustainability Assessment of Bio-inspired Energy Materials: Life Cycle and Environmental Perspectives.
