材料科学
石墨烯
超级电容器
木质素
纳米技术
多孔性
可再生能源
复合材料
电容
电极
电气工程
工程类
物理化学
有机化学
化学
作者
Ruquan Ye,Yieu Chyan,Jibo Zhang,Yilun Li,Xiao Han,Carter Kittrell,James M. Tour
标识
DOI:10.1002/adma.201702211
摘要
Wood as a renewable naturally occurring resource has been the focus of much research and commercial interests in applications ranging from building construction to chemicals production. Here, a facile approach is reported to transform wood into hierarchical porous graphene using CO 2 laser scribing. Studies reveal that the crosslinked lignocellulose structure inherent in wood with higher lignin content is more favorable for the generation of high‐quality graphene than wood with lower lignin content. Because of its high electrical conductivity (≈10 Ω per square), graphene patterned on wood surfaces can be readily fabricated into various high‐performance devices, such as hydrogen evolution and oxygen evolution electrodes for overall water splitting with high reaction rates at low overpotentials, and supercapacitors for energy storage with high capacitance. The versatility of this technique in formation of multifunctional wood hybrids can inspire both research and industrial interest in the development of wood‐derived graphene materials and their nanodevices.
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