The sentencing revealed many details which were previously unknown. The conviction stated that Ling had sought to use his influence to advance the interests of senior regional officials Li Chuncheng, Pan Yiyang, and Bai Enpei; all three had fallen under the axe of the anti-corruption campaign though their links to Ling were unclear hitherto the conviction. It also stated that his wife, Gu Liping, and his son, Ling Gu, had taken some bribes on behalf of the Ling family. Ling Gu was said to have solicited bribes worth some 6.5 million yuan (~$1 million) from Wei Xin, a senior executive of Founder Group. Ling and his wife, Gu Liping, additionally were said to have received some 15 million yuan (~$2.3 million) from Guangsha Group, in exchange for political favours from Ling.[21] Following his departure from the General Office, it was said that Ling gained access to privileged state secrets through his former subordinate Huo Ke, who was also indicted and tried.[3]
For Wang, suona music runs in his blood. Yet even with four generations of suona players among his forebears, it took him years of practice to master even the basics on the notoriously difficult instrument. As a child, he spent months playing cymbals in his grandfather’s band to improve his sense of rhythm. Then, from the age of 8, he started learning the sheng mouth organ to perfect his intonation and dropped out of school to focus on music.
     Jihui received his PhD degree in physics from the University of Michigan in 2000.  He is the recipient of the Kent M. Terwilliger Prize for best doctoral thesis from the University of Michigan Physics Department in 2001, the John M. Campbell Award (outstanding contributions to pure or applied science) from GM R&D Center in 2007, and the US Department of Energy Innovative and Novel Computational Impact on Theory and Experiment (INCITE) award in 2008.  Jihui was elected a Fellow of the American Physical Society in 2012.
Taming interfacial electronic effects on Pt nanoparticles modulated by their concomitants has emerged as an intriguing approach to optimize Pt catalytic performance. Here, we report Pt nanoparticles assembled on vacancy-abundant hexagonal boron nitride nanosheets and their use as a model catalyst to embrace an interfacial electronic effect on Pt in...