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Shadow enhanced self-charging power system for wave and solar energy harvesting from the ocean

Qian Zhang, Qijie Liang, Dilip Krishna Nandakumar, Hao Qu, Qiongfeng Shi, Fuad Indra Alzakia, Darrell Jun Jie Tay, Lin Yang, Xueping Zhang, Lakshmi Suresh, Chengkuo Lee, Andrew T. S. Wee, Swee Ching Tan

2021Nature Communications138 citationsDOIOpen Access PDF

Abstract

Hybrid energy-harvesting systems that capture both wave and solar energy from the oceans using triboelectric nanogenerators and photovoltaic cells are promising renewable energy solutions. However, ubiquitous shadows cast from moving objects in these systems are undesirable as they degrade the performance of the photovoltaic cells. Here we report a shadow-tribo-effect nanogenerator that hybrids tribo-effect and shadow-effect together to overcome this issue. Several fiber-supercapacitors are integrated with the shadow-tribo-effect nanogenerator to form a self-charging power system. To capture and store wave/solar energy from oceans, an energy ball based on the self-charging power system is demonstrated. By harnessing the shadow-effect, i.e. the shadow of the moving object in the energy ball, the charging time shortens to 253.3 s to charge the fiber-supercapacitors to the same voltage (0.3 V) as using pure tribo-effect. This cost-effective method to harvest and store the wave/solar energy from the oceans in this work is expected to inspire next-generation large-scale blue energy harvesting.

Topics & Concepts

NanogeneratorEnergy harvestingPhotovoltaic systemTriboelectric effectRenewable energySupercapacitorSolar energyVoltageElectricity generationElectrical engineeringEnvironmental scienceMaterials sciencePower (physics)Automotive engineeringComputer sciencePhysicsEngineeringCapacitanceElectrodeQuantum mechanicsComposite materialAdvanced Sensor and Energy Harvesting MaterialsConducting polymers and applicationsPerovskite Materials and Applications