Preventing Graphene from Restacking <i>via</i> Bioinspired Chemical Inserts: Toward a Superior 2D Micro-supercapacitor Electrode

Bouzina, Adnane; Perrot, Hubert; Sel, Ozlëm; Debiemme‐Chouvy, Catherine

doi:10.1021/acsanm.1c00489

Cited by 13 publications

(23 citation statements)

References 67 publications

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“…The relative concentration increase of the hydrated sodium cation is more significant and its transfer kinetics is almost twice faster in ERGO-PDA than in ERGO (Figure e,f). This is consistent with the higher d -spacing between the graphene sheets and the better rate capability of the ERGO-PDA electrode compared with the ERGO, which was reported in our previous work …”

Section: Resultssupporting

confidence: 92%

“…In the PIL–water binary mixture, the composite electrode can deliver an energy density of 16.3 mWh·cm –3 at a scan rate of 10 mV·s –1 , which is almost twice higher than what the same electrode can achieve in the pristine aqueous electrolyte (8.7 mWh·cm –3 ) at the same scan rate. Even at a high cycling rate (1 V·s –1 ), the ERGO-PDA electrode can still deliver an energy density of 6.1 mWh·cm –3 , which is comparable to or higher than most of the recent reports on EDLC electrodes tested in the aqueous electrolyte evaluated under similar discharge rates. ,, According to the equation used for energy density calculation (eq ), this significant improvement of the energy density can be explained by the larger potential window in the [Pyr + ][HSO 4 – ]–water binary mixture (60/40 wt %): 1.2 V versus only 0.9 V in 0.5 M Na 2 SO 4 (pH = 2), which is more evidently seen in the CV curves presented in Figure , , and S5. This behavior is fully in line with the electrogravimetric results, which reveal that the water molecules are not implied in the interfacial electrochemical processes when PIL is present in the electrolyte.…”

Section: Resultsmentioning

confidence: 69%

“…ERGO and ERGO-PDA electrodes were synthesized according to the procedure reported in our previous work . Briefly, about 6 μL of a GO suspension was drop-cast on a gold electrode (0.2 cm 2 ) of a quartz resonator (9 MHz, AWSensors, Spain).…”

Section: Methodsmentioning

confidence: 99%

“…Due to the high relevance of the classical EQCM and ac -electrogravimetry for interface characterization, herein, they were exploited to address the interface behavior of our previously optimized two-dimensional (2D) graphene–polydopamine (ERGO-PDA) composite electrodes . Regarding the electrolytes, we were particularly interested in protic ionic liquid (PIL) electrolytes (presence of labile hydrogens) over aprotic ionic liquids (AILs) (absence of labile hydrogens).…”

Section: Introductionmentioning

confidence: 99%

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Interface Properties of 2D Graphene–Polydopamine Composite Electrodes in Protic Ionic Liquid-Based Electrolytes Explored by Advanced Electrogravimetry

Bouzina

Perrot

Debiemme‐Chouvy

et al. 2022

ACS Appl. Energy Mater.

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A fundamental understanding of the processes occurring at the electrode/electrolyte interfaces is of paramount importance to enhance the performance of energy storage devices. Addressing this issue requires suitable characterization tools, due to the complex nature of such interfaces. By means of electrochemical quartz crystal microbalance (EQCM) and its advanced mode, the so-called ac-electrogravimetry, herein, we report on the interfacial properties of two-dimensional (2D) graphene−polydopamine (ERGO-PDA) composite electrodes in diverse electrolyte compositions including a protic ionic liquid (PIL), pyrrolidinium hydrogen sulfate [Pyr + ][HSO 4 − ]. We have performed a comparative study in a [Pyr + ]-[HSO 4 − ]−water binary mixture in the absence and presence of Na 2 SO 4 and compared it with the interfacial behavior of ERGO-PDA in a 0.5 M Na 2 SO 4 (pH = 2) pristine electrolyte. Our EQCM and ac-electrogravimetric analyses reveal that the [Pyr + ] ions, due to their chaotropic nature, inhibit the approach of kosmotropic Na + ions and water molecules to the interface, suppressing the contribution of electrodragged water molecules, substantially observed in the case of pristine aqueous electrolyte. Despite the dissimilarity of the charge compensation process occurring in the presence of [Pyr + ][HSO 4 − ], the ERGO-PDA electrode is able to maintain similar cycling stability (99% for 10,000 cycles at 1000 mV•s −1 ) and specific capacitance values (325 F•cm −3 ) compared with the pristine aqueous electrolyte, with the advantage of superior energy density (16.3 versus 8.7 mWh•cm −3 ) due to a noticeably enlarged potential window in [Pyr + ][HSO 4 − ]−water binary mixtures.

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Section: Resultssupporting

confidence: 92%

Section: Resultsmentioning

confidence: 69%

Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Interface Properties of 2D Graphene–Polydopamine Composite Electrodes in Protic Ionic Liquid-Based Electrolytes Explored by Advanced Electrogravimetry

Bouzina

Perrot

Debiemme‐Chouvy

et al. 2022

ACS Appl. Energy Mater.

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“…In supercapacitors, the charge storage is based on a reversible adsorption of electrolyte ions towards the surface of electrodes [ 3 , 4 , 5 , 6 , 7 , 8 ]. Therefore, the selection of the electrode materials is important due to a certain number of parameters such as: specific surface area, porosity, structure, electrical conductivity, surface wettability, and electrochemical stability to improve the performance of electrodes [ 2 , 9 , 10 , 11 , 12 ].…”

Section: Introductionmentioning

confidence: 99%

Ion Dynamics at the Carbon Electrode/Electrolyte Interface: Influence of Carbon Nanotubes Types

2022

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Electrochemical quartz crystal microbalance (EQCM) and AC-electrogravimetry methods were employed to study ion dynamics in carbon nanotube base electrodes in NaCl aqueous electrolyte. Two types of carbon nanotubes, Double Wall Carbon Nanotube (DWCNT) and Multi Wall Carbon Nanotube (MWCNT), were chosen due to their variable morphology of pores and structure properties. The effect of pore morphology/structure on the capacitive charge storage mechanisms demonstrated that DWCNT base electrodes are the best candidates for energy storage applications in terms of current variation and specific surface area. Furthermore, the mass change obtained via EQCM showed that DWCNT films is 1.5 times greater than MWCNT films in the same potential range. In this way, the permselectivity of DWCNT films showed cation exchange preference at cathode potentials while MWCNT films showed anion exchange preference at anode potentials. The relative concentration obtained from AC-electrogravimetry confirm that DWCNT base electrodes are the best candidates for charge storage capacity electrodes, since they can accommodate higher concentration of charged species than MWCNT base electrodes.

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Highly Ordered Graphene Polydopamine Composite Allowing Fast Motion of Cations: Toward a High‐Performance Microsupercapacitor

Bouzina

Meng

Bazin

et al. 2023

Adv Materials Inter

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The simple and eco‐friendly preparation of microsupercapacitor remains a great challenge. Here are presented the preparation and the characterizations of an all‐solid symmetric micro‐supercapacitor based on a new composite formed of highly ordered graphene sheets due to the presence of polydopamine between the layers, which present a d‐spacing of 0.356 nm. This graphene‐polydopamine composite is prepared by electroreduction of graphene oxide (GO) followed by the electrooxidation of dopamine added into the initial solution, i.e., after GO reduction. In Na2SO4 solution, this composite material shows excellent capacitance and stability even at a high scan rate (2 V s−1) and a very low relaxation time (τ0) of 62 ms. This value is in very good agreement with the high transfer kinetic and low transfer resistance values of the ions implied in the charge storage process (Na+·2H2O and Na+) determined by ac‐electrogravimetry. Finally, it is shown that the all‐solid micro‐supercapacitor (interdigitated electrodes obtained using a CO2 laser and Na2SO4/PVA hydrogel) prepared with this new composite delivers a remarkable energy density of 6.36 mWh cm−3 for a power density of 0.22 W cm−3 and exhibits excellent cycling stability (98% of retention after 10 000 cycles at 2 V s−1).

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Preventing Graphene from Restacking via Bioinspired Chemical Inserts: Toward a Superior 2D Micro-supercapacitor Electrode

Cited by 13 publications

References 67 publications

Interface Properties of 2D Graphene–Polydopamine Composite Electrodes in Protic Ionic Liquid-Based Electrolytes Explored by Advanced Electrogravimetry

Interface Properties of 2D Graphene–Polydopamine Composite Electrodes in Protic Ionic Liquid-Based Electrolytes Explored by Advanced Electrogravimetry

Ion Dynamics at the Carbon Electrode/Electrolyte Interface: Influence of Carbon Nanotubes Types

Highly Ordered Graphene Polydopamine Composite Allowing Fast Motion of Cations: Toward a High‐Performance Microsupercapacitor

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