Recent Advances in Effective Reduction of Graphene Oxide for Highly Improved Performance Toward Electrochemical Energy Storage

Zhang, Peng; Li, Zhi; Zhang, Shijie; Shao, Guosheng

doi:10.1002/eem2.12001

Cited by 120 publications

(57 citation statements)

References 114 publications

(148 reference statements)

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“…Under high temperature condition, the surface nickel atoms and carbon elements will generate stable chemical bonds as NiC bonds leading to the shift of binding energy. The chemical bonds perfectly connect the active materials and current collectors, acting as “bridges,” which is more beneficial for electrons to transport without hindrance . Figure B inset shows the theoretical simulation for the interface chemical bonds.…”

Section: Resultsmentioning

confidence: 99%

Multidimension‐Controllable Synthesis of Ant Nest‐Structural Electrode Materials with Unique 3D Hierarchical Porous Features toward Electrochemical Applications

Miao

Lü

Zhang

et al. 2019

Adv Funct Materials

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Hierarchical porous materials (HPM) have been widely used to enhance electrochemical performance in different fields of application, since their porous structures benefit electrolyte infiltration and ion diffusion. However, the realization of multidimension-controllable synthesis of HPM, including material category, material components, supporting substrates, as well as pore sizes/ distributions, is still a huge challenge. Herein, a novel concept is proposed, for the first time, on the geometry structure of HPM bioinspired by natural ant nests, which features 3D interlaced and well-interconnected porous structures. Moreover, a facile and universal approach is developed to the multidimensioncontrollable synthesis of ant nest-structural HPM. Further investigation shows that the in situ construction of carbon-based ant nests onto porous current collectors to fabricate the integrated electrode for supercapacitors could induce nearly 70% and 45% enhancement on the specific capacitance compared to the common powder and freestanding materials, respectively. Moreover, this synthesis route can be facilely extended to obtain the ant neststructural CuO x , which exhibits fivefold enhancement in sensitivity for glucose detection. Such biomimetic hierarchical porous architectures are of great significance in the field of electrochemical applications.

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Section: Resultsmentioning

confidence: 99%

Multidimension‐Controllable Synthesis of Ant Nest‐Structural Electrode Materials with Unique 3D Hierarchical Porous Features toward Electrochemical Applications

Miao

Lü

Zhang

et al. 2019

Adv Funct Materials

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“…It is well known that there is a strong relationship between the structure of GO and its electrical conductivity. The performance of GO in electronic devices is based on its electrical properties, which are significantly influenced by the synthesis process, hence on the level of oxidation [56]. GO is reported to be electrically insulating due to the sp 3 bonds, the elevated density of oxygenated groups, which are electronegative, and the presence of defects and vacancies that lead to a gap in the electronic density of states [57].…”

Section: Electrical Resistance Of the Egosmentioning

confidence: 99%

Tailorable Synthesis of Highly Oxidized Graphene Oxides via an Environmentally-Friendly Electrochemical Process

et al. 2020

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Graphene oxide (GO) is an attractive alternative to graphene for many applications due to its captivating optical, chemical, and electrical characteristics. In this work, GO powders with a different amount of surface groups were synthesized from graphite via an electrochemical two-stage process. Many synthesis conditions were tried to maximize the oxidation level, and comprehensive characterization of the resulting samples was carried out via elemental analysis, microscopies (TEM, SEM, AFM), X-ray diffraction, FT-IR and Raman spectroscopies as well as electrical resistance measurements. SEM and TEM images corroborate that the electrochemical process used herein preserves the integrity of the graphene flakes, enabling to obtain large, uniform and well exfoliated GO sheets. The GOs display a wide range of C/O ratios, determined by the voltage and time of each stage as well as the electrolyte concentration, and an unprecedented minimum C/O value was obtained for the optimal conditions. FT-IR evidences strong intermolecular interactions between neighbouring oxygenated groups. The intensity ratio of D/G bands in the Raman spectra is high for samples prepared using concentrated H2SO4 as an electrolyte, indicative of many defects. Furthermore, these GOs exhibit smaller interlayer spacing than that expected according to their oxygen content, which suggests predominant oxidation on the flake edges. Results point out that the electrical resistance is conditioned mostly by the interlayer distance and not simply by the C/O ratio. The tuning of the oxidation level is useful for the design of GOs with tailorable structural, electrical, optical, mechanical, and thermal properties.

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“…With the consumption of fossil fuel, energy exhaustion and environmental pollution have become a serious social problem. Economy friendly and sustainable energy storage systems that can utilize and integrate renewable but intermittent energy sources, such as solar, wind, and geothermal energy, into electric grids are of prime importance . Secondary batteries are considered as promising and important carriers to store and deliver these energies due to their efficiency and portability.…”

Section: Introductionmentioning

confidence: 99%

Review on Recent Advances of Cathode Materials for Potassium‐ion Batteries

Sha

Liu

Zhao

et al. 2020

Energy & Environ Materials

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Potassium‐ion batteries (PIBs) as a promising supplement to lithium‐ion batteries have drawn great attention attributing to the abundant potassium resources, the fast‐ionic conductivity of potassium ions in electrolyte, and the low standard redox potential of potassium. However, the development of PIBs is still in its infancy, which is largely restricted by the fact that the electrode materials, especially the cathode materials of PIBs, are far from satisfactory in practical applications regarding the capacity, voltage, and cycle life. Therefore, most of current research efforts have been devoted to exploring new and high‐performance electrode materials for achieving PIBs with high capacity and voltage as well as excellent cyclability. In this review, the recent advancements on cathode materials for PIBs are specially summarized. Besides, technological developments, scientific challenges, and future research opportunities of cathode materials for PIBs are also briefly outlooked.

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Recent Advances in Effective Reduction of Graphene Oxide for Highly Improved Performance Toward Electrochemical Energy Storage

Cited by 120 publications

References 114 publications

Multidimension‐Controllable Synthesis of Ant Nest‐Structural Electrode Materials with Unique 3D Hierarchical Porous Features toward Electrochemical Applications

Multidimension‐Controllable Synthesis of Ant Nest‐Structural Electrode Materials with Unique 3D Hierarchical Porous Features toward Electrochemical Applications

Tailorable Synthesis of Highly Oxidized Graphene Oxides via an Environmentally-Friendly Electrochemical Process

Review on Recent Advances of Cathode Materials for Potassium‐ion Batteries

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