Robson L. Schuarca scite author profile

Deriving battery grade materials from natural sources is a key element to establishing sustainable energy storage technologies. In this work, we present the use of avocado peels as a sustainable source for conversion into hard carbon-based anodes for sodium ion batteries. The avocado peels are simply washed and dried then subjected to a high-temperature conversion step. Materials characterization reveals conversion of the avocado peels in high-purity, highly-porous hard carbon powders. When prepared as anode materials they show the capability to reversibly store and release sodium ions. The hard carbon-based electrodes exhibit excellent cycling performance, namely, a reversible capacity of 352.55 mAh/g at 0.05 A/g, rate capability up to 86 mAh/g at 3500 mA/g, capacity retention of >90%, and 99.9% coulombic efficiencies after 500 cycles. Cyclic voltammetry studies indicate that the storage process was diffusion-limited, with diffusion coefficient of 8.62 x 10-8 cm2 s-1. This study demonstrates avocado-derived hard carbon as a sustainable source that can provide excellent electrochemical and battery performance as anodes in sodium ion batteries.

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Photocatalytic turnover of CO₂ under visible light by [Re(CO)₃(1-(1,10) phenanthroline-5-(4-nitro-naphthalimide))Cl] in tandem with the sacrificial donor BIH

Spear

Schuarca

Bond

et al. 2022

RSC Adv.

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Understanding the mechanism(s) of ketone oxidation on VOx/γ-Al2O3

Zhu

Liu

Wang

et al. 2021

Journal of Catalysis

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Hard Carbon Derived from Avocado Peels as a High-Capacity, High-Performance Anode Material for Sodium-Ion Batteries

Genier

Pathreeker

Schuarca

et al. 2021

Preprint

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Deriving battery grade materials from natural sources is a key element to establishing sustainable energy storage technologies. In this work, we present the use of avocado peels as a sustainable source for conversion into hard carbon based anodes for sodium ion batteries. The avocado peels are simply washed and dried then proceeded to a high temperature conversion step. Materials characterization reveals conversion of the avocado peels in high purity, highly porous hard carbon powders. When prepared as anode materials they show to the capability to reversibly store and release sodium ions. The hard carbon-based electrodes exhibit excellent cycling performance, namely, a reversible capacity of 352.55 mAh/g at 0.05 A/g, rate capability up to 86 mAh/g at 3500 mA/g, capacity retention of >90%, and 99.9% coulombic efficiencies after 500 cycles. This study demonstrates avocado derived hard carbon as a sustainable source that can provide excellent electrochemical and battery performance as anodes in sodium ion batteries.

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Lewis Acidity and Substituent Effects Influence Aldehyde Enolization and C-C Coupling in Beta Zeolites

Potts²,

Zhang³

et al. 2023

Preprint

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