Chuanli Wang

Learn More
Using bibliometric methods, we investigate China’s international scientific collaboration from three levels of collaborating countries, institutions and individuals. We design a database in SQL Server, and make analysis of Chinese SCI papers based on the corresponding author field. We find that China’s international scientific collaboration is focused on a(More)
The C4 photosynthetic cycle supercharges photosynthesis by concentrating CO2 around ribulose-1,5-bisphosphate carboxylase and significantly reduces the oxygenation reaction. Therefore engineering C4 feature into C3 plants has been suggested as a feasible way to increase photosynthesis and yield of C3 plants, such as rice, wheat, and potato. To identify the(More)
A novel method is proposed to monitor and record scientists’ working timetable. We record the downloads information of scientific papers real-timely from Springer round the clock, and try to explore scientists' working habits. As our observation demonstrates, many scientists are still engaged in their research after working hours every day. Many of them(More)
In our previous study (Wang et al., 2012), we analyzed scientists’ working timetable of 3 countries, using realtime downloading data of scientific literatures. In this paper, we make a through analysis about global scientists’ working habits. Top 30 countries/territories from Europe, Asia, Australia, North America, Latin America and Africa are selected as(More)
In this research, through the complete investigation of 100 American national universities. A list of 3,776 Chinese-American faculties are collected. Analysis is made from five aspects, including regional statistics, institution statistics, gender statistics, position statistics, and discipline statistics. New York, California and Pennsylvania have the most(More)
To realize the transition from C3 to C4 plants, the systematic comparison of C3 and C4 metabolism is necessary. In this study, we detected their differences using the improved constraint-based models by setting the ratio between carboxylation and oxygenation by Rubisco. We found the C3 model exhibit more dense topology structure than C4. The simulation of(More)
  • 1