Fullerol–graphene nanobuds: Novel water dispersible and highly conductive nanocarbon for electrochemical sensing
Applied Materials Today, Volume 9, December 2017, Pages 71-76
Athanasios B. Bourlinos, Vasilios Georgakilas, Vasilios Mouselimis, Antonios Kouloumpis, Eleftherios Mouzourakis, Apostolos Koutsioukis, Myrsini-Kyriaki Antoniou, Dimitrios Gournis, Michael A. Karakassides, Yiannis Deligiannakis, Veronika Urbanova, Klara Cepe, Aristides Bakandritsos, Radek Zboril
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| Facile, Environmentally Friendly, Cost Effective and Scalable Production of Few-Layered Graphene Original Research Article
Chemical Engineering Journal, Available online 10 June 2017, Pages
Ahmad Amiri, Mohd Nashrul Mohd Zubir, Ayrat M. Dimiev, K.H. Teng, Mehdi Shanbedi, S.N. Kazi, Shaifulazuar Bin Rozali
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| Ternary hybrid nanoparticles of reduced graphene oxide/graphene-like MoS2/zirconia as lubricant additives for bismaleimide composites with improved mechanical and tribological properties Original Research Article
Composites Part A: Applied Science and Manufacturing, Available online 10 June 2017, Pages
Zhengyan Chen, Hongxia Yan, Qing Lyu, Song Niu, Cheng Tang
Graphical abstractTo develop low friction coefficient and high wear resistance composites, the ternary hybrid nanoparticles consisting of reduced graphene oxide (rGO), graphene-like MoS2 and ZrO2 with active amino groups (NH2-rGO/MoS2/ZrO2) were successfully prepared through a facile and effective one-pot hydrothermal method. Subsequently, the bismaleimide (BMI) composites with different weight fraction of fillers were fabricated to enhance the mechanical and tribological properties of BMI resin. The results demonstrate that the layers of MoS2 in the filler can significantly decrease and just a little content of fillers can remarkably improve the mechanical and tribological properties of BMI resin. In particular, the average friction coefficient and volume wear rate of the BMI composite containing 0.4 wt.% NH2-rGO/MoS2/ZrO2 can reach the lowest value of 0.15 and 1.5 × 10-6 mm3/(N·m), respectively. The excellent friction-reducing and wear-resistance performances are mainly attributed to the good synergistic effect among the rGO nanosheets, graphene-like MoS2 and ZrO2.
| Reduced graphene oxide prepared at low temperature thermal treatment as transparent conductors for organic electronic applications Original Research Article
Organic Electronics, Available online 10 June 2017, Pages
A.H. Lima, J.P. Mendonça, M. Duarte, F. Stavale, C. Legnani, G.S.G. De Carvalho, I.O. Maciel, F. Sato, B. Fragneaud, W.G. Quirino
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 | The photocatalytic performance of modified ZnIn2S4 with graphene and La for hydrogen generation under visible light Original Research Article
Renewable Energy, Available online 10 June 2017, Pages
Rongshu Zhu, Fei Tian, Sainan Che, Gang Cao, Feng Ouyang
Graphical abstractA high activity catalyst of 1.0RGO/1.0La-ZnIn2S4 was successfully synthesized. Its photocatalytic H2 evolution reached 2255 μmol g−1 h−1 under visible-light irradiation. Its A.Q.Y. and the ηc reached 29.45% and 18.79% at 420 nm. The RGO and La have great synergistic effect on the modification of ZnIn2S4. The synergistic effect is proposed that: the RGO can transfers the photoexcited electrons rapidly, and then the surface defects provided by La over ZnIn2S4 can capture the electrons to produce H2.Image 1
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