In recent years, the efficient and clean utilization of coal has been widely concerned by scholars at home and abroad. Despite the abundance of global coal resources, the deep utilization rate of coal is still insufficient. To address this challenge, it has been explored the development and preparation of coal-based high value-added carbonaceous materials. In the present study, a novel process was developed for the preparation of graphene using biphenyl sourced from low-rank coal. Using chemical vapor deposition (CVD) technology, it was successfully implemented for us to grow high-quality graphene on copper foils. The prepared graphene products were observed and characterized using Raman spectroscopy, optical microscopy and scanning electron microscopy techniques. The results of this research provide a new perspective for the utilization of low-rank coal resources.

The Doha Climate Gateway launched the second commitment period of the Kyoto Protocol and restated the vision of a new global agreement binding all countries. To reach the goal of the new agreement and further to save the Earth, the principles regarding CBDR of UNFCCC and the Kyoto Protocol may need a reflection and reinterpretation. The common responsibility would be emphasized more than before, and the differentiated responsibility might improve the feasibility to be operated considering the principles of equity and respective capabilities. In climate change conferences, China has shown its flexibility on the issue of a new agreement. As a developing responsible power, China should contribute to addressing climate change upon the call of common responsibility, but it also needs an appropriate differentiated treatment according to its capability.

We investigated genetic diversity among and within the populations of cultivated ginseng (Panax ginseng C. A. Meyer ) using SRAP profiles. A total of 24 ginseng plants were sampled from the three populations (two from China, one from Korea). Since all these populations are previously shown closely related to each other assister groups, we used Panax quinquefolium L. and wild ginseng as a reference species, which is not "within the sister group". All individuals from the three populations were screened with a total of 36 primer pairs with 26 primers generated from 328 SRAP bands of DNA gels. The mean gene diversity (HE) was estimated to be 0.057 within populations (range 0.032-0.067), and 0.086 at the species level. The genetic differentiation (Gst=0.31) indicates that genetic variation apportioned 30% among populations and 70% within populations. Generally, the result of this study indicates that ginseng contains high molecular variation in its populations.