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Fabrication of graphene-based electrode in less than a minute through hybrid microwave annealing

机译：通过混合微波退火在不到一分钟的时间内制造石墨烯基电极

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Highly efficient and stable MoS 2 nanocrystals on graphene sheets (MoS 2 /GR) are synthesized via a hybrid microwave annealing process. Through only 45 second-irradiation using a household microwave oven equipped with a graphite susceptor, crystallization of MoS 2 and thermal reduction of graphene oxide into graphene are achieved, indicating that our synthetic method is ultrafast and energy-economic. Graphene plays a crucial role as an excellent microwave absorber as well as an ideal support material that mediates the growth of MoS 2 nanocrystals. The formed MoS 2 /GR electrocatalyst exhibits high activity of hydrogen evolution reaction with small onset overpotential of 0.1 V and Tafel slope of 50mV per decade together with an excellent stability in acid media. Thus our hybrid microwave annealing could be an efficient generic method to fabricate various graphene-based hybrid electric materials for broad applications.

机译：通过混合微波退火工艺合成了石墨烯片上的高效且稳定的MoS 2纳米晶体（MoS 2 / GR）。通过使用配备有石墨感受器的家用微波炉仅进行45次辐照，就可以实现MoS 2的结晶和将氧化石墨烯热还原为石墨烯的过程，这表明我们的合成方法超快且节能。石墨烯起着至关重要的作用，它是一种出色的微波吸收剂以及一种理想的载体材料，可介导MoS 2纳米晶体的生长。所形成的MoS 2 / GR电催化剂表现出高的析氢反应活性，具有0.1 V的小起始超电势和50mV每十年的Tafel斜率，以及在酸性介质中的出色稳定性。因此，我们的混合微波退火技术可能是一种有效的通用方法，可用于制造广泛应用的各种基于石墨烯的混合电材料。

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Youn Duck Hyun; Jang Ji-Wook; Kim Jae Young; Jang Jum Suk; Choi Sun Hee; Lee Jae Sung;
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年度 2014
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1. Fabrication of graphene-based electrode in less than a minute through hybrid microwave annealing [J] . Duck Hyun Youn, Ji-Wook Jang, Jae Young Kim, Scientific reports. . 2014,第1期

机译：通过混合微波退火在不到一分钟的时间内制造石墨烯基电极
2. Fabrication of graphene-based electrode in less than a minute through hybrid microwave annealing [J] . Duck Hyun Youn, Ji-Wook Jang, Jae Young Kim, Scientific reports. . 2014,第1期

机译：通过混合微波退火在不到一分钟的时间内制造石墨烯基电极
3. Hybrid Microwave Annealing for Fabrication of More Efficient Semiconductor Photoanodes for Solar Water Splitting [J] . Kim Ju Hun, Jang Youn Jeong, Choi Sun Hee, ACS Sustainable Chemistry & Engineering . 2019,第1期

机译：用于制造更高效的半导体光阳极的混合微波退火，用于太阳能水分裂
4. Graphene-based hybrid thin films as transparent conductive electrode for optoelectronic devices [C] . Pradeep Kumar, Chun Hong Kang, Zainal Arif Burhanudin, IEEE International Conference on Semiconductor Electronics . 2016

机译：石墨烯基混合薄膜作为光电器件的透明导电电极
5. Fabrication of gold-platinum and gold-carbon hybrid polyimide spinal cord surface electrodes for the stimulation of spinal neurons. [D] . van Niekerk, Pieter Emmelius. 2014

机译：金-铂和金-碳杂化聚酰亚胺脊髓表面电极的制备，用于刺激脊髓神经元。
6. Fabrication of graphene-based electrode in less than a minute through hybrid microwave annealing [O] . Duck Hyun Youn, Ji-Wook Jang, Jae Young Kim, -1

机译：通过混合微波退火在不到一分钟的时间内制造石墨烯基电极
7. Fabrication and characterization of graphene-based hybrid nanocomposite: assessment of antibacterial potential and biomedical application [O] . Mahesh P. More, Mahendra D. Patil, Abhijeet P. Pandey, 2016

机译：基于石墨烯的杂交纳米复合材料的制造与表征：抗菌潜力和生物医学应用的评估
8. Graphene Oxide Annealing Procedures for Graphene-Based Supercapacitors. [R] . Levine, L. B., Ervin, M. H. 2015

机译：基于石墨烯的超级电容器的石墨烯氧化物退火程序。

Fabrication of graphene-based electrode in less than a minute through hybrid microwave annealing

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