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The missing magmatic arc in a long-lived ocean from the western Kunlun- Pamir Paleo-Tethys realm 期刊论文
Geophysical Research Letters, 2021
作者:  Gong-Jian Tang;  Peter A. Cawood;  Derek A. Wyman;  Wei Dan;  Qiang Wang;  Ya-Nan Yang
收藏  |  浏览/下载:15/0  |  提交时间:2021/11/15
Peta–electron volt gamma-ray emission from the Crab Nebula 期刊论文
Science, 2021
作者:  The LHAASO Collaboration*†;  Zhen Cao;  F. Aharonian;  Q. An;  Axikegu;  L. X. Bai;  Y. X. Bai;  Y. W. Bao;  D. Bastieri;  X. J. Bi;  Y. J. Bi;  H. Cai;  J. T. Cai;  Zhe Cao;  J. Chang;  J. F. Chang;  B. M. Chen;  E. S. Chen;  J. Chen;  Liang Chen;  Liang Chen;  Long Chen;  M. J. Chen;  M. L. Chen;  Q. H. Chen;  S. H. Chen;  S. Z. Chen;  T. L. Chen;  X. L. Chen;  Y. Chen;  N. Cheng;  Y. D. Cheng;  S. W. Cui;  X. H. Cui;  Y. D. Cui;  B. D’Ettorre Piazzoli;  B. Z. Dai;  H. L. Dai;  Z. G. Dai;  Danzengluobu;  D. della Volpe;  X. J. Dong;  K. K. Duan;  J. H. Fan;  Y. Z. Fan;  Z. X. Fan;  J. Fang;  K. Fang;  C. F. Feng;  L. Feng;  S. H. Feng;  Y. L. Feng;  B. Gao;  C. D. Gao;  L. Q. Gao;  Q. Gao;  W. Gao;  M. M. Ge;  L. S. Geng;  G. H. Gong;  Q. B. Gou;  M. H. Gu;  F. L. Guo;  J. G. Guo;  X. L. Guo;  Y. Q. Guo;  Y. Y. Guo;  Y. A. Han;  H. H. He;  H. N. He;  J. C. He;  S. L. He;  X. B. He;  Y. He;  M. Heller;  Y. K. Hor;  C. Hou;  X. Hou;  H. B. Hu;  S. Hu;  S. C. Hu;  X. J. Hu;  D. H. Huang;  Q. L. Huang;  W. H. Huang;  X. T. Huang;  X. Y. Huang;  Z. C. Huang;  F. Ji;  X. L. Ji;  H. Y. Jia;  K. Jiang;  Z. J. Jiang;  C. Jin;  T. Ke;  D. Kuleshov;  K. Levochkin;  B. B. Li;  Cheng Li;  Cong Li;  F. Li;  H. B. Li;  H. C. Li;  H. Y. Li;  Jian Li;  Jie Li;  K. Li;  W. L. Li;  X. R. Li;  Xin Li;  Xin Li;  Y. Li;  Y. Z. Li;  Zhe Li;  Zhuo Li;  E. W. Liang;  Y. F. Liang;  S. J. Lin;  B. Liu;  C. Liu;  D. Liu;  H. Liu;  H. D. Liu;  J. Liu;  J. L. Liu;  J. S. Liu;  J. Y. Liu;  M. Y. Liu;  R. Y. Liu;  S. M. Liu;  W. Liu;  Y. Liu;  Y. N. Liu;  Z. X. Liu;  W. J. Long;  R. Lu;  H. K. Lv;  B. Q. Ma;  L. L. Ma;  X. H. Ma;  J. R. Mao;  A. Masood;  Z. Min;  W. Mitthumsiri;  T. Montaruli;  Y. C. Nan;  B. Y. Pang;  P. Pattarakijwanich;  Z. Y. Pei;  M. Y. Qi;  Y. Q. Qi;  B. Q. Qiao;  J. J. Qin;  D. Ruffolo;  V. Rulev;  A. Saiz;  L. Shao;  O. Shchegolev;  X. D. Sheng;  J. Y. Shi;  H. C. Song;  Yu. V. Stenkin;  V. Stepanov;  Y. Su;  Q. N. Sun;  X. N. Sun;  Z. B. Sun;  P. H. T. Tam;  Z. B. Tang;  W. W. Tian;  B. D. Wang;  C. Wang;  H. Wang;  H. G. Wang;  J. C. Wang;  J. S. Wang;  L. P. Wang;  L. Y. Wang;  R. N. Wang;  Wei Wang;  Wei Wang;  X. G. Wang;  X. J. Wang;  X. Y. Wang;  Y. Wang;  Y. D. Wang;  Y. J. Wang;  Y. P. Wang;  Z. H. Wang;  Z. X. Wang;  Zhen Wang;  Zheng Wang;  D. M. Wei;  J. J. Wei;  Y. J. Wei;  T. Wen;  C. Y. Wu;  H. R. Wu;  S. Wu;  W. X. Wu;  X. F. Wu;  S. Q. Xi;  J. Xia;  J. J. Xia;  G. M. Xiang;  D. X. Xiao;  G. Xiao;  H. B. Xiao;  G. G. Xin;  Y. L. Xin;  Y. Xing;  D. L. Xu;  R. X. Xu;  L. Xue;  D. H. Yan;  J. Z. Yan;  C. W. Yang;  F. F. Yang;  J. Y. Yang;  L. L. Yang;  M. J. Yang;  R. Z. Yang;  S. B. Yang;  Y. H. Yao;  Z. G. Yao;  Y. M. Ye;  L. Q. Yin;  N. Yin;  X. H. You;  Z. Y. You;  Y. H. Yu;  Q. Yuan;  H. D. Zeng;  T. X. Zeng;  W. Zeng;  Z. K. Zeng;  M. Zha;  X. X. Zhai;  B. B. Zhang;  H. M. Zhang;  H. Y. Zhang;  J. L. Zhang;  J. W. Zhang;  L. X. Zhang;  Li Zhang;  Lu Zhang;  P. F. Zhang;  P. P. Zhang;  R. Zhang;  S. R. Zhang;  S. S. Zhang;  X. Zhang;  X. P. Zhang;  Y. F. Zhang;  Y. L. Zhang;  Yi Zhang;  Yong Zhang;  B. Zhao;  J. Zhao;  L. Zhao;  L. Z. Zhao;  S. P. Zhao;  F. Zheng;  Y. Zheng;  B. Zhou;  H. Zhou;  J. N. Zhou;  P. Zhou;  R. Zhou;  X. X. Zhou;  C. G. Zhu;  F. R. Zhu;  H. Zhu;  K. J. Zhu;  X. Zuo
收藏  |  浏览/下载:14/0  |  提交时间:2021/07/27
Toroidal polar topology in strained ferroelectric polymer 期刊论文
Science, 2021
作者:  Mengfan Guo;  Changqing Guo;  Jian Han;  Shulin Chen;  Shan He;  Tongxiang Tang;  Qian Li;  Joseph Strzalka;  Jing Ma;  Di Yi;  Ke Wang;  Ben Xu;  Peng Gao;  Houbing Huang;  Long-Qing Chen;  Shujun Zhang;  Yuan-Hua Lin;  Ce-Wen Nan;  Yang Shen
收藏  |  浏览/下载:11/0  |  提交时间:2021/03/12
Large-scale emulation of spatio-temporal variation in temperature under climate change 期刊论文
Environmental Research Letters, 2021
作者:  Xiao-Chen Yuan;  Nan Zhang;  Wei-Zheng Wang;  Yi-Ming Wei
收藏  |  浏览/下载:11/0  |  提交时间:2021/01/15
Structural basis for neutralization of SARS-CoV-2 and SARS-CoV by a potent therapeutic antibody 期刊论文
Science, 2020
作者:  Zhe Lv;  Yong-Qiang Deng;  Qing Ye;  Lei Cao;  Chun-Yun Sun;  Changfa Fan;  Weijin Huang;  Shihui Sun;  Yao Sun;  Ling Zhu;  Qi Chen;  Nan Wang;  Jianhui Nie;  Zhen Cui;  Dandan Zhu;  Neil Shaw;  Xiao-Feng Li;  Qianqian Li;  Liangzhi Xie;  Youchun Wang;  Zihe Rao;  Cheng-Feng Qin;  Xiangxi Wang
收藏  |  浏览/下载:16/0  |  提交时间:2020/09/22
Development of an inactivated vaccine candidate for SARS-CoV-2 期刊论文
Science, 2020
作者:  Qiang Gao;  Linlin Bao;  Haiyan Mao;  Lin Wang;  Kangwei Xu;  Minnan Yang;  Yajing Li;  Ling Zhu;  Nan Wang;  Zhe Lv;  Hong Gao;  Xiaoqin Ge;  Biao Kan;  Yaling Hu;  Jiangning Liu;  Fang Cai;  Deyu Jiang;  Yanhui Yin;  Chengfeng Qin;  Jing Li;  Xuejie Gong;  Xiuyu Lou;  Wen Shi;  Dongdong Wu;  Hengming Zhang;  Lang Zhu;  Wei Deng;  Yurong Li;  Jinxing Lu;  Changgui Li;  Xiangxi Wang;  Weidong Yin;  Yanjun Zhang;  Chuan Qin
收藏  |  浏览/下载:12/0  |  提交时间:2020/07/06
Projected Future Changes in Tropical Cyclones using the CMIP6 HighResMIP Multi‐model Ensemble 期刊论文
Geophysical Research Letters, 2020
作者:  Malcolm John Roberts;  Joanne Camp;  Jon Seddon;  Pier Luigi Vidale;  Kevin Hodges;  Benoit Vanniere;  Jenny Mecking;  Rein Haarsma;  Alessio Bellucci;  Enrico Scoccimarro;  Louis‐;  Philippe Caron;  Fabrice Chauvin;  Laurent Terray;  Sophie Valcke;  Marie‐;  Pierre Moine;  Dian Putrasahan;  Christopher D. Roberts;  Retish Senan;  Colin Zarzycki;  Paul Ullrich;  Yohei Yamada;  Ryo Mizuta;  Chihiro Kodama;  Dan Fu;  Qiuying Zhang;  Gokhan Danabasoglu;  Nan Rosenbloom;  Hong Wang;  Lixin Wu
收藏  |  浏览/下载:8/0  |  提交时间:2020/06/22
Wintertime particulate matter decrease buffered by unfavorable chemical processes despite emissions reductions in China 期刊论文
Geophysical Research Letters, 2020
作者:  Danny M. Leung;  Hongrong Shi;  Bin Zhao;  Jing Wang;  Elizabeth M. Ding;  Yu Gu;  Haotian Zheng;  Gang Chen;  Kuo‐;  Nan Liou;  Shuxiao Wang;  Jerome D. Fast;  Guangjie Zheng;  Jingkun Jiang;  Xiaoxiao Li;  Jonathan H. Jiang
收藏  |  浏览/下载:11/0  |  提交时间:2020/06/22
Transparent ferroelectric crystals with ultrahigh piezoelectricity 期刊论文
NATURE, 2020, 577 (7790) : 350-+
作者:  Qiu, Chaorui;  Wang, Bo;  Zhang, Nan;  Zhang, Shujun;  Liu, Jinfeng;  Walker, David;  Wang, Yu;  Tian, Hao;  Shrout, Thomas R.;  Xu, Zhuo;  Chen, Long-Qing;  Li, Fei
收藏  |  浏览/下载:16/0  |  提交时间:2020/07/03

Transparent piezoelectrics are highly desirable for numerous hybrid ultrasound-optical devices ranging from photoacoustic imaging transducers to transparent actuators for haptic applications(1-7). However, it is challenging to achieve high piezoelectricity and perfect transparency simultaneously because most high-performance piezoelectrics are ferroelectrics that contain high-density light-scattering domain walls. Here, through a combination of phase-field simulations and experiments, we demonstrate a relatively simple method of using an alternating-current electric field to engineer the domain structures of originally opaque rhombohedral Pb(Mg1/3Nb2/3)O-3-PbTiO3 (PMN-PT) crystals to simultaneously generate near-perfect transparency, an ultrahigh piezoelectric coefficient d(33) (greater than 2,100 picocoulombs per newton), an excellent electromechanical coupling factor k(33) (about 94 per cent) and a large electro-optical coefficient gamma(33) (approximately 220 picometres per volt), which is far beyond the performance of the commonly used transparent ferroelectric crystal LiNbO3. We find that increasing the domain size leads to a higher d(33) value for the [001]-oriented rhombohedral PMN-PT crystals, challenging the conventional wisdom that decreasing the domain size always results in higher piezoelectricity(8-10). This work presents a paradigm for achieving high transparency and piezoelectricity by ferroelectric domain engineering, and we expect the transparent ferroelectric crystals reported here to provide a route to a wide range of hybrid device applications, such as medical imaging, self-energy-harvesting touch screens and invisible robotic devices.


  
PIK3CA variants selectively initiate brain hyperactivity during gliomagenesis 期刊论文
NATURE, 2020, 578 (7793) : 166-+
作者:  Qiu, Chaorui;  Wang, Bo;  Zhang, Nan;  Zhang, Shujun;  Liu, Jinfeng;  Walker, David;  Wang, Yu;  Tian, Hao;  Shrout, Thomas R.;  Xu, Zhuo;  Chen, Long-Qing;  Li, Fei
收藏  |  浏览/下载:6/0  |  提交时间:2020/07/03

Glioblastoma is a universally lethal form of brain cancer that exhibits an array of pathophysiological phenotypes, many of which are mediated by interactions with the neuronal microenvironment(1,2). Recent studies have shown that increases in neuronal activity have an important role in the proliferation and progression of glioblastoma(3,4). Whether there is reciprocal crosstalk between glioblastoma and neurons remains poorly defined, as the mechanisms that underlie how these tumours remodel the neuronal milieu towards increased activity are unknown. Here, using a native mouse model of glioblastoma, we develop a high-throughput in vivo screening platform and discover several driver variants of PIK3CA. We show that tumours driven by these variants have divergent molecular properties that manifest in selective initiation of brain hyperexcitability and remodelling of the synaptic constituency. Furthermore, secreted members of the glypican (GPC) family are selectively expressed in these tumours, and GPC3 drives gliomagenesis and hyperexcitability. Together, our studies illustrate the importance of functionally interrogating diverse tumour phenotypes driven by individual, yet related, variants and reveal how glioblastoma alters the neuronal microenvironment.


Glioblastoma tumours expressing oncogenic PIK3CA variants secrete the glycan GPC3, which promotes the formation of neural synapses, brain synaptic hyperexcitability and gliomagenesis.