纳米孔
石墨烯
纳米片
材料科学
氧化物
膜
吸附
堆积
化学工程
渗透汽化
纳米技术
水运
扩散
碳纤维
溶剂
选择性吸附
纳米孔
热稳定性
作者
Lei Jiang,Pengrui Jin,Shushan Yuan,Ziwen Dai,Tingting Luo,Tianze Hu,Yue Wang,Xin Xiao,Xiaoming Xu,Huanting Wang,Bart Van der Bruggen
标识
DOI:10.1038/s41467-026-72660-w
摘要
Abstract Pervaporation provides a selective route to high purity solvents that are indispensable for high precision industry. Here, we introduce structurally engineered nanoporous graphene oxide membranes (N-GOm), obtained by heterogeneous co-assembly of nanoporous graphene oxide (NPGO) and GO nanosheets. The NPGO nanosheet characterized by nanoporous sp 3 carbon domains and oxygen functionalized groups, synergistically increases water affinity, effectively elevating the water adsorption energies (E ads ). The N-GOm integrates defective sp 3 /sp 2 heterogeneous stacked cavity to facilitate water transport, effectively improve the solution self-diffusion coefficient ( D ), thereby improve diffusion activation energy (E D ) indirectly, while graphitic sp 2 -stacked regions ensure stable structure and enable precise molecular sieving. Here, the thermal crosslinking rN-GOm achieves a remarkable flux of 18.4 kg·m -2 ·h -1 , highlighting the potential for industrial solvent dehydration. These complementary structural properties enable rapid and highly selective transport via densely packed sieving channels and interconnected internal pathways, providing atomistic insight into how carbon microenvironment and stacking structure regulate adsorption and diffusion in ultrathin two-dimensional membranes.
科研通智能强力驱动
Strongly Powered by AbleSci AI