导演: Nick Matthews 编剧: Craig Behenna / Nick Matthews 主演: 史蒂芬·李·马奎德 / Mark Leonard Winter / Sara West / Craig Behenna / Tilda Cobham-Hervey / 更多... 类型: 剧情 / 惊悚 制片国家/地区: 澳大利亚 语言: 英语 上映日期: 2015-04-02 片长: 102分钟 IMDb链接: tt2307002 Travis, is a thirty-something psychiatrist haunted by the death of a former patient. On the brink of a nervous breakdown he stumbles across a group run by a charismatic leader, Father Jay. In search of answers, Travis is led deeper and deeper into the underworld of a Doom's Day cult where he meets Grace, a mysterious teenage girl. When the cult comes under attack from the outside world, Travis must risk his life to free a girl, and save his soul. 下载地址: http://page92.ctfile.com/file/138079834
Thanks everyone, Especially, thanks every former researchers in this field for their devotion of knowlege point , Accumulation is the most important for everything.
Fornew readers and those who request to be “ 好友 good friends” please read my 公告 栏 first. This is a general talk given by John Maeda, president of the Rhode Island School of Design (RISD) www.risd.edu and former professor of computer science and media arts at MIT, in ourtown recently. RISD is a small but well known college of arts and design in the US. Her graduates are engaged in commercial, graphics, and computer arts and design. STEM stand for S cience, T echnology, E ngineering,and M athematics. The need for STEM in modern education is without question. It is in fact part of the educational policy of the US government in her effort to improve citizen’s knowledge and competence in the modern world. Maeda’s message is that STEM is not enough, we need to add A RTS to STEM and push for STEAM instead. Of course, he is helping to publicize his school.But he has a point when we realize that the iPhone probably would not have been invented just by STEM but only with STEAM. Without the arts, our world will be far less interesting. There are more materials on the web for RISD and STEM toSTEAM. Just google the subjects.
A ppt of recent visiting talk (about 2 hrs), updating to my current and former group members on what I have learnt in the past two decades and what we will do next. Link: Part-I Link: Part-II Per iod Agenda/attainment 1989-20 03 O (C, N, H) surface chemistry (Prog Mater Sc 2003) 1999 -2 007 Size dependence of nanostructures (Prog Solid State Chem 2007) 200 4- 2009 Mesoscopic thermo mechanics (Prog Mater Sc 2009) 20 07 -2011 Nonbonding electron polarization ( Nanoscale 20 10;) The sould of GNR and CNT, (EES, 2011) 2009 onward Quantitative spectroscopy Defect, surface nanos Impurity interface 4S and catalysis H bond dynamics and H2O anomalies Ice Rule (Pauling 1935) 1. M H: spin ice, O-adsorption, metal oxide 2. C, N, F O: N, C, F reaction 3. Bond-band-barrier correlation (Phys Chem) 4. O-H : O segmentation: H2O NTE Atomic CN-R (Pauling 1947; Goldschmidt 1927) 1. BOLS (E): under CN (Surf, defect, nano, etc) 2. Local entrapment polarization 3. Hetero-CN: (impurity, interf, alloy, comp.) 4. Local bond average STM/S VLEED Atomic valency; 4-stage bonding kinetics Raman d, E, q D , E z , b , E den , etc PES/ ZPS (UPS, XPS, AES) (surf interf): E n (0), D E n (12), E den , E z , etc