Monash大学创建了M-rGO,这是一种碳材料,使超级电容器能够以快速充电和耐久的方式储存类似电池的能源。 Monash University created M-rGO, a carbon material enabling supercapacitors to store battery-like energy with fast charging and durability.

Monash大学的研究人员创建了一种新的碳基材料,多尺度的减少石氧化物(M-rGO),使超级电容器能够储存与铅酸电池相当的能源,同时能更快地充电并保持耐久性。 Researchers at Monash University have created a new carbon-based material, multiscale reduced graphene oxide (M-rGO), enabling supercapacitors to store energy comparable to lead-acid batteries while charging much faster and maintaining durability. 这种创新源自丰富的自然石墨,具有高功率密度,可推广用于商业用途。 The innovation, derived from abundant natural graphite, achieves high power densities and is scalable for commercial use. 由Monash spinout Ionic Industries开发的这项技术可以通过提供快速收费和长期性能来改造电动车辆、可再生能源储存和消费电子产品。 The technology, being developed by Monash spinout Ionic Industries, could transform electric vehicles, renewable energy storage, and consumer electronics by offering rapid charging and long-term performance.