72,114 research outputs found
Miridiba (Miridiba) bannaensis Gao & Bai & Fang & Yu 2018, new species
Miridiba (Miridiba) bannaensis Gao & Fang, new species Type locality. “ China: Yunnan Province: Xishuangbanna City ”. Distribution. China (Yunnan).Published as part of Gao, Chuan-Bu, Bai, Ming, Fang, Hong & Yu, Zhi-Guo, 2018, Four new species of the genus Miridiba Reitter (Coleoptera: Scarabaeidae: Melolonthinae) from China, pp. 1-20 in Zootaxa 4527 (1) on page 13, DOI: 10.11646/zootaxa.4527.1.1, http://zenodo.org/record/261188
Miridiba (Miridiba) youweii Gao & Bai & Fang & Yu 2018, new species
Miridiba (Miridiba) youweii Gao & Fang, new species Type locality. “ China: Yunnan Province: Jingdong Yi Autonomous County ”. Distribution. China (Guizhou, Yunnan, Zhejiang).Published as part of Gao, Chuan-Bu, Bai, Ming, Fang, Hong & Yu, Zhi-Guo, 2018, Four new species of the genus Miridiba Reitter (Coleoptera: Scarabaeidae: Melolonthinae) from China, pp. 1-20 in Zootaxa 4527 (1) on page 18, DOI: 10.11646/zootaxa.4527.1.1, http://zenodo.org/record/261188
Miridiba (Miridiba) kuatunensis Gao & Bai & Fang & Yu 2018, new species
Miridiba (Miridiba) kuatunensis Gao & Fang, new species Type locality. “ China: Fujian Province: Wuyishan Mountain ”. Distribution. China (Fujian, Guangdong, Guangxi, Hainan, Zhejiang).Published as part of Gao, Chuan-Bu, Bai, Ming, Fang, Hong & Yu, Zhi-Guo, 2018, Four new species of the genus Miridiba Reitter (Coleoptera: Scarabaeidae: Melolonthinae) from China, pp. 1-20 in Zootaxa 4527 (1) on page 13, DOI: 10.11646/zootaxa.4527.1.1, http://zenodo.org/record/261188
Specialised metabolites as chemotaxonomic markers of Coptosapelta diffusa, supporting its delimitation as sisterhood phylogenetic relationships with Rubioideae
Gao, Rong-Rong, Liu, Zhi-Fang, Yang, Xue-Fei, Song, Yu-Liang, Cui, Xiao-Yun, Yang, Ji-Yuan, Lu, Chun-Hua, Shen, Yue-Mao (2021): Specialised metabolites as chemotaxonomic markers of Coptosapelta diffusa, supporting its delimitation as sisterhood phylogenetic relationships with Rubioideae. Phytochemistry (112929) 192: 1-7, DOI: 10.1016/j.phytochem.2021.112929, URL: http://dx.doi.org/10.1016/j.phytochem.2021.11292
Replication Data for: Dynamic Effect of Last Glacial Maximum Ice Sheet Topography on East Asian Summer Monsoon
Simulations: 100%, 0%, 100L+100E, 0L+0E, 100L+0E, 0L+100E, 100L+100E_AGCM, 0L+0E_AGCM. Ref: Gao Y, Liu Z, Lu Z, 2020, Dynamic Effect of Last Glacial Maximum Ice Sheet Topography on East Asian Summer Monsoon, Journal of Climate. For any question, please contact: [email protected]
Qing men lu gao : shi liu juan ; Qing men lü gao : liu juan ; Qing men sheng gao : ba juan /
Kuang 19 x 14.2 cm., 10 hang 21 zi, hei kou, dan hei yu wei, zuo you shuang bian, ban xin zhong juan shu ming, juan ci, ye ci.Kangxi gui you "li yan", [Kangxi] yi you [1705] Li Biheng [ba], yan ke shu shi; Guangxu bing shen [1876] Li Chaoqiong "ba" yan yin shu shi.Lu gao, lü gao Kangxi gui you ke, sheng gao yi you ke.Nei feng mian juan "Qing men cao tang cang ban, Shao Zixiang quan ji ..."Titles from individual captions.Mode of access: Internet.OSU copy incomplete : wanting
Metamaterial-based Toraldo pupils for super-resolution at millimetre wavelengths
Using the long-established Cardiff metal-mesh filter technology, we have exploited our ability to artificially manipulate the phase of a wavefront across a device in order to produce a dielectric-based Toraldo pupil working at millimeter wavelengths. The use of a Toraldo pupil to push the angular resolution of an optical imaging system beyond the classical diffraction limit is yet to be realized in the millimeter regime, but is an exciting prospect. Here we present the design and measured performance of a prototype Toraldo pupil, based on a 5 annuli design
MPX900717 Supplemental material - Supplemental material for Anxiolytic effects of polydatin through the blockade of neuroinflammation in a chronic pain mouse model
Supplemental material, MPX900717 Supplemental material for Anxiolytic effects of polydatin through the blockade of neuroinflammation in a chronic pain mouse model by Shao-Yu Guan, Kun Zhang, Xin-Shang Wang, Le Yang, Bin Feng, Dan-Dan Tian, Mei-Rong Gao, Shui-Bing Liu, An Liu and Ming-Gao Zhao in Molecular Pain</p
Supplementary_Table1_Revised - Growing Skull Fracture of Temporal Bone in Adults: A Case Report and Literature Review
Supplementary_Table1_Revised for Growing Skull Fracture of Temporal Bone in Adults: A Case Report and Literature Review by Xiao-hong Yan, Ke Qiu, Yan Gao, Jianjun Ren, Danni Cheng, Wendu Pang, Yao Song, Wen Yang, Rong Yu and Yu Zhao in Ear, Nose & Throat Journal</p
Source code and demo of MAGUS (Machine Learning and Graph Theory Assisted Universal Structure Searcher) v2.0.0
This is the source code and demo for MAGUS (Machine Learning and Graph Theory Assisted Universal Structure Searcher) v2.0.0. Future updates can be accessed from gitlab (https://gitlab.com/bigd4/magus) after registration (https://www.wjx.top/vm/m5eWS0X.aspx).MAGUS is a Python package designed to predict crystal structures, which is free for non-commercial academic use, subject to registration and approval at https://www.wjx.top/vm/m5eWS0X.aspx .
1) This Code or its derivative work will not be used for any purpose other than non-commercial research.
2) This Code or its derivative code will not be published or otherwise distributed.
3) The use of this Code should be acknowledged by citing the tutorial paper describing the use of this code:
[1] Junjie Wang, Hao Gao, Yu Han, Chi Ding, Shuning Pan, Yong Wang, Qiuhan Jia, Hui-Tian Wang, Dingyu Xing, and Jian Sun, "MAGUS: machine learning and graph theory assisted universal structure searcher", National Science Review 10 (7), nwad128 (2023).
[2] Kang Xia, Hao Gao, Cong Liu, Jianan Yuan, Jian Sun, Hui-Tian Wang, Dingyu Xing, "A novel superhard tungsten nitride predicted by machine-learning accelerated crystal structure search", Sci. Bull. 63, 817 (2018).Additional references that may be cited (at the discretion of the user) are:
Graph theory:
[3] Hao Gao, Junjie Wang, Yu Han, Jian Sun, "Enhancing Crystal Structure Prediction by Decomposition and Evolution Schemes Based on Graph Theory", Fundamental Research 1, 466 (2021).
[4] Hao Gao, Junjie Wang, Zhaopeng Guo, Jian Sun, "Determining dimensionalities and multiplicities of crystal nets" npj Comput. Mater. 6, 143 (2020).
Surface reconstruction:
[5] Y. Han, J. Wang, C. Ding, H. Gao, S. Pan, Q. Jia, and J. Sun, "Prediction of surface reconstructions using MAGUS", The Journal of Chemical Physics 158 (17), 174109 (2023).
Structure searching in confined space:
[6] Chi Ding, Junjie Wang, Yu Han, Jianan Yuan, Hao Gao, and Jian Sun, "High Energy Density Polymeric Nitrogen Nanotubes inside Carbon Nanotubes", Chin. Phys. Lett. 39, 036101 (2022). (Express Letter)Peer reviewe
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