Kim, C.; Kim, K.; Kwon, S.; Kang, H.; Hong, B.; Choi, W. Innovative Variation in the Morphological Characteristics of Carbon Nanowalls Grown on a Molybdenum Disulfide Interlayer. Nanomaterials2022, 12, 4334.
Kim, C.; Kim, K.; Kwon, S.; Kang, H.; Hong, B.; Choi, W. Innovative Variation in the Morphological Characteristics of Carbon Nanowalls Grown on a Molybdenum Disulfide Interlayer. Nanomaterials 2022, 12, 4334.
Kim, C.; Kim, K.; Kwon, S.; Kang, H.; Hong, B.; Choi, W. Innovative Variation in the Morphological Characteristics of Carbon Nanowalls Grown on a Molybdenum Disulfide Interlayer. Nanomaterials2022, 12, 4334.
Kim, C.; Kim, K.; Kwon, S.; Kang, H.; Hong, B.; Choi, W. Innovative Variation in the Morphological Characteristics of Carbon Nanowalls Grown on a Molybdenum Disulfide Interlayer. Nanomaterials 2022, 12, 4334.
Abstract
Carbon, which exists in large quantities on Earth, is a material with interesting properties, and many studies have been conducted since the past. In particular, nano-sized carbon allotropes are called carbon nanomaterials, and many studies are currently underway. Among them, carbon nanowall (CNW) is a structure in which graphene of sp2 bond is grown vertically, CNW have outstanding strength, can be highly electrically conducting or semiconducting, have a large specific surface area per unit mass. Electrical, chemical, physical properties of these CNW is modified by parameter such as surface density, height and thickness of it. Those have great effect on CNW and can be adjusted as growth interlayer. It was confirmed that the molybdenum disulfide (MoS2) interlayer synthesized by radio frequency (RF) magnetron sputtering altered the morphological characteristics such as the shaped edge of the CNW, the pores diameter and density. Through these studies, we confirmed the effect of MoS2 on the morphological characteristics of CNW. This opens the door to improving the performance of electrodes and devices.
Chemistry and Materials Science, Materials Science and Technology
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