Investigation on the Potential of Various Biomass Waste for the Synthesis of Carbon Material for Energy Storage Application

Abstract: The metal–air battery (MAB) has been a promising technology to store energy, with its outstanding energy density, as well as safety features. Yet, the current material used as air cathode is costly and not easily available. This study investigated a few biomass wastes with good potential, including the oil palm empty fruit bunch and garlic peel, as well as the oil palm frond, to determine a sufficiently environmentally-safe, yet efficient, precursor to produce carbon material as an electro-catalyst for MAB. Th… Show more

“…Hence, it is necessary to develop cost-effective electrode materials. Biomass porous carbon is an environmentally friendly carbon material obtained from the carbonization of biomass waste. , Its low cost and renewable characteristics make it stand out among many carbon-based nanomaterials, which can help reduce the consumption of fossil reserves and promote the sustainable development of society. More importantly, it has a special and natural nanoporous structure, high specific surface area, and good electrical conductivity, which made BPC coincide with the demand for the electrode of an IPMC actuator. ,− …”

Soft Actuator with Biomass Porous Electrode: A Strategy for Lowering Voltage and Enhancing Durability

“…Hence, it is necessary to develop cost-effective electrode materials. Biomass porous carbon is an environmentally friendly carbon material obtained from the carbonization of biomass waste. , Its low cost and renewable characteristics make it stand out among many carbon-based nanomaterials, which can help reduce the consumption of fossil reserves and promote the sustainable development of society. More importantly, it has a special and natural nanoporous structure, high specific surface area, and good electrical conductivity, which made BPC coincide with the demand for the electrode of an IPMC actuator. ,− …”

Soft Actuator with Biomass Porous Electrode: A Strategy for Lowering Voltage and Enhancing Durability

Experimental study of quaternary blends with diesel/palm-oil biodiesel/ethanol/diethyl ether for optimum performance and emissions in a light-duty diesel engine using response surface methodology

Real-time outdoor experiment and performance analysis of dual-coil heat exchanger integrated thermal energy storage