Gram-scale production of graphene based on solvothermal synthesis and sonication

Graphene has achieved a great amount of popularity and interest from the science world because of its extraordinary physical, mechanical and thermal properties. Graphene is an allotrope of carbon, having one-atom-thick planar sheets of sp 2 bonded carbon atoms densely packed in a honeycomb crystal lattice. Many methods to synthesize graphene have been developed over a short period and we believe it is necessary to create a list of the most notable approaches. This article focuses on the methods to synthesize graphene in an attempt to summarize and document advancements in the synthesis of graphene research and future prospects.

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“…This solvothermal reaction method can deliver graphene yield of approx. 0.1 g per 1 mL of ethanol-typically yielding 0.5 g per reaction [37].…”

Section: Pyrolysis Methodsmentioning

confidence: 99%

Graphene synthesis: a Review

Shams

Zhang

Zhu

2015

Materials Science-Poland

115

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“…But as for supercritical fluid extraction, it was observed that the high temperature and pressure resulted in chemical alteration of the extracted pollutants in some instances [22]. An alternative approach may be explored to use solvothermal process [23], which is usually conducted at lower temperature and pressure in comparison with supercritical fluid extraction. To our knowledge, only limited works focused on the application of this procedure for cleaning up organic pollutants [24].…”

Section: Introductionmentioning

confidence: 99%

Advantage of solvothermal procedure for polychlorinated biphenyls removal from e-waste contaminated site

Zhang

Zhu

Zhang

2011

Chemical Engineering Journal

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a b s t r a c tPolychlorinated biphenyls (PCBs) are environmentally persistent, toxic, bioaccumulative and recalcitrant. In this study, aged PCBs from e-waste contaminated site were respectively subjected to Soxhlet and solvothermal treatments. The results indicated that solvothermal method was much more predominant for PCBs removal than traditional Soxhlet method. Sequential Soxhlet-solvothermal experiment demonstrated that Soxhlet unextractable (bound) PCBs were efficiently removed by solvothermal procedure due to enhanced solvating effects of organic solvents. The key point was that bound PCBs in the aged soil were partitioned in different components of soil organic matter, e.g., the solvothermal removal amounts of I-V PCBs (sum of PCB8, PCB18, PCB28, PCB44, PCB66) from fulvic acid (FA), humic acid (HA), bound humic acid (bound HA), bound lipids and mineral fraction were 0.4, 40.8, 28.4, 19.8, and 10.6%, respectively. It was found that isopropanol was the most effective solvent for PCBs removal. The optimum performing temperature, time and liquid to solid ratio for PCB8, PCB18, PCB28, PCB44, and PCB66 were 170 • C, 8 h and 10:1, respectively. As for higher molecular weight PCB congeners, these conditions were 150 • C, 10 h and 15:1. Soil organic matter content was unchanged after solvothermal treatment indicating that soil fertility remained after the removal process. This work provides a more clean process for effective treatment of soils contaminated by persistent organic pollutants (POPs) in comparison to traditional methods.

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“…Furthermore, the Raman spectra of both S‐SG and pristine SG showed broad and merged disorder‐induced D‐bands and graphite G‐bands at around 1350 and 1600 cm −1 (Figure 2c). In the X‐ray diffraction (XRD) results (Figure 2d), broad peaks located at 22.3° and 44.3° were observed for both S‐SG and the pristine SG, corresponding to the (002) diffraction of the graphitic layered structure and the (100) diffraction of graphite, respectively 3, 9, 11. Broad and diffuse ring patterns are observed in selected area electron diffraction patterns of S‐SG and pristine SG (Figure S3, Supporting Information), confirming that a stacking number of carbon layers in S‐SG and pristine SG is smaller than that of graphite.…”

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confidence: 99%

Solvothermal‐Derived S‐Doped Graphene as an Anode Material for Sodium‐Ion Batteries

et al. 2018

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Sodium‐ion batteries (SIBs) have attracted enormous attention in recent years due to the high abundance and low cost of sodium. However, in contrast to lithium‐ion batteries, conventional graphite is unsuitable for SIB anodes because it is much more difficult to intercolate the larger Na ions into graphite layers. Therefore, it is critical to develop new anode materials for SIBs for practical use. Here, heteroatom‐doped graphene with high doping levels and disordered structures is prepared using a simple and economical thermal process. The solvothermal‐derived graphene shows excellent performance as an anode material for SIBs. It exhibits a high reversible capacity of 380 mAh g−1 after 300 cycles at 100 mA g−1, excellent rate performance 217 mAh g−1 at 3200 mA g−1, and superior cycling performance at 2.0 A g−1 during 1000 cycles with negligible capacity fade.

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Gram-scale production of graphene based on solvothermal synthesis and sonication

Cited by 1,041 publications

References 22 publications

Graphene synthesis: a Review

Graphene synthesis: a Review

Advantage of solvothermal procedure for polychlorinated biphenyls removal from e-waste contaminated site

Solvothermal‐Derived S‐Doped Graphene as an Anode Material for Sodium‐Ion Batteries

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