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The 24th International Congress on Glass

作者： R.K.Pan A.Qiao H.Z.Tao J.Ruan X.J.Zhao G.N.Greaves Y.Z.Yue State Key Laboratory of Silicate Materials for Architectures Wuhan University of Technology School of Materials Science and Engineering Hubei University Centre for Advanced Functional Materials and Devices Institute of Mathematics and PhysicsAberystwyth University Department of Chemistry and Bioscience Aalborg University

Calcium aluminates（CaO）（AlO）are main components in the Earth's mantle and also in the aluminate cement,which have been studied by many researchers.)Calcium aluminates are very fragile glass formers and do not ... 详细信息

关键词： ADL CaO Dynamic behavior of the 3CaO-1Al2O3 liquid

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Reaching a Fermi-superfluid state near an orbital Feshbach resonance

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Physical Review A 2016年第3期94卷 033609-033609页

作者： Junjun Xu Ren Zhang Yanting Cheng Peng Zhang Ran Qi Hui Zhai Department of Physics University of Science and Technology Beijing Beijing 100083 China Institute for Advanced Study Tsinghua University Beijing 100084 China Department of Physics Renmin University of China Beijing 100872 China Beijing Key Laboratory of Opto-electronic Functional Materials & Micro-nano Devices 100872 (Renmin Univeristy of China) Beijing Computational Science Research Center Beijing 100084 China

We propose to realize a strongly interacting Fermi superfluid near a narrow Feshbach resonance using the recently discovered “orbital Feshbach resonance.” The orbital Feshbach resonance is a type of magnetic field tunable scattering resonance theoretically predicted and experimentally observed recently in the alkaline-earth-metal-like Yb173 atom. We first show that the orbital Feshbach resonance is a narrow resonance in energy, while it is hundreds Gauss wide in terms of magnetic field strength, taking the advantage that the magnetic moment difference between the open and closed channels is quite small. Therefore, this is an ideal platform for the experimental realization of a strongly interacting Fermi superfluid with narrow resonance. We further show that the transition temperature for the Fermi superfluid in this system, especially at the BCS side of the resonance, is even higher than that in a wide resonance, which is also due to the narrow character of this resonance. Our results will encourage experimental efforts to realize Fermi superfluid in the alikaline-earth-metal-like Yb173 system, the properties of which will be complementary to extensively studied Fermi superfluids nearby a wide resonance in alkali-metal K40 and Li6 systems.

关键词： Fermionic condensates Scattering theory Atomic gases Fermi gases Random phase approximation

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The modulation of stem cell behaviors by functionalized nanoceramic coatings on Ti-based implants

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Bioactive Materials 2016年第1期1卷 65-76页

作者： Xiangmei Liu Man Li Yizhou Zhu K.W.K.Yeung Paul K.Chu Shuilin Wu Hubei Collaborative Innovation Center for Advanced Organic Chemical Materials Ministry-of-Education Key Laboratory for the Green Preparation and Application of Functional MaterialsHubei Key Laboratory of Polymer MaterialsFaculty of Materials Science&EngineeringHubei UniversityWuhan 430062China Shenzhen Key Laboratory for Innovative Technology in Orthopaedic Trauma The University of Hong Kong Shenzhen Hospital1 Haiyuan 1st RoadFutian DistrictShenzhenChina Division of Spine Surgery Department of Orthopaedics&TraumatologyLi Ka Shing Faculty of MedicineThe University of Hong KongPokfulamHong KongChina Department of Physics&Materials Science City University of Hong KongTat Chee AvenueKowloonHong KongChina

Nanoceramic coating on the surface of Ti-based metallic implants is a clinical potential option in orthopedic *** cells have been found to have osteogenic *** is necessary to study the influences of functionalized nanoceramic coatings on the differentiation and proliferation of stem cells in vitro or in *** this paper,we summarized the recent advance on the modulation of stem cells behaviors through controlling the properties of nanoceramic coatings,including surface chemistry,surface roughness and *** addition,mechanotransduction pathways have also been discussed to reveal the interaction mechanisms between the stem cells and ceramic coatings on Ti-based *** the final part,the osteoinduction and osteoconduction of ceramic coating have been also presented when it was used as carrier of BMPs in new bone formation.

关键词： Nanoceramic coating Ti Stem cell Modulation Implants

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Emergence of skyrmions from rich parent phases in the molybdenum nitrides

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Physical Review B 2016年第6期93卷 060409(R)-060409(R)页

作者： Wei Li Chiming Jin Renchao Che Wensen Wei Langsheng Lin Lei Zhang Haifeng Du Mingliang Tian Jiadong Zang State Key Laboratory of Functional Materials for Informatics and Shanghai Center for Superconductivity Shanghai Institute of Microsystem and Information Technology and CAS-Shanghai Science Research Center Chinese Academy of Sciences Shanghai 200050 China High Magnetic Field Laboratory Chinese Academy of Science (CAS) Hefei 230031 China Collaborative Innovation Center of Advanced Microstructures Nanjing University Jiangsu 210093 China Laboratory of Advanced Materials Department of Materials Science Collaborative Innovation Center of Chemistry for Energy Materials Fudan University Shanghai 200438 China Hefei National Laboratory for Physical Science at Microscale and Department of Physics University of Science and Technology of China Hefei 230026 China Department of Physics and Materials Science Program University of New Hampshire Durham New Hampshire 03824 USA

We report a new family of skyrmion materials originated from the antisymmetric Dzyaloshinskii-Moriya (DM) interactions. Based on the symmetric tensor technique, the molybdenum nitrides with the β-manganese structure, A2Mo3N with A=Fe, Co, Rh, are predicted to support the skyrmion phase. This predication is directly proved in doped FexCo1−xRh0.5Mo3N components by high-resolution Lorentz transmission electron imaging. Interestingly, the parent compounds Fe2Mo3N, Co2Mo3N, and Rh2Mo3N exhibit ferromagnetic, antiferromagnetic, and possible superconducting orderings, respectively. Magnetism in these parent phases is theoretically clarified by the first-principle calculations, where the corrected nature of the magnetism is revealed.

关键词： Density of states Dzyaloshinskii-Moriya interaction Magnetism Skyrmions Classical spin models Nanostructures First-principles calculations

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Measurement of the integrated Luminosities of cross-section scan data samples around theψ(3770)mass region

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Chinese Physics C 2018年第6期42卷 1-8页

作者： M. Ablikim M. N. Achasov S. Ahmed M. Albrecht M. Alekseev A. Amoroso F. F. An Q. An Y. Bai O. Bakina R. Baldini Ferroli Y. Ban K. Begzsuren D. W. Bennett J. V. Bennett N. Berger M. Bertani D. Bettoni F. Bianchi E. Boger I. Boyko R. A. Briere H. Cai X. Cai O. Cakir A. Calcaterra G. F. Cao S. A. Cetin J. Chai J. F. Chang W. L. Chang G. Chelkov G. Chen H. S. Chen J. C. Chen M. L. Chen P. L. Chen S. J. Chen X. R. Chen Y. B. Chen X. K. Chu G. Cibinetto F. Cossio H. a. Dai, J. F. Dai A. Dbeyssi D. Dedovich Z. Y. Deng A. Denig I. Denysenko M. Destefanis F. De Mori Y. Ding C. Dong J. Dong L. Y. Dong M. Y. Dong Z. L. Dou S. X. Du P. F. nuan J. Fang S. S. Fang Y. Fang R. Farinelli L. Fava S. Fegan F. Feldbauer G. Felici C. Q. Feng E. Fioravanti M. Fritsch C. D. Fu Q. Gao X. L. Gao Y. Gao, Y. G. Gao Z. Gao B. Garillon I. Garzia A. Gilman K. Goetzen L. Gong W. X. Gong W. Gradl M. Greco L. M. Gu M. H. Gu Y. T. Gu A. q. Guo L. B. Guo R. P. Guo Y. F. Guo A. Guskov Z. Haddadi S. Han X. Q. Hao F. A. Harris Z. L. He X. O. He F. H. Heinsius T. Held Y. K. Heng T. Holtmann Z. L. Hou H. M. Hu J. F. gu T. Hu Y. Hu G. S. Huang J. S. Huang X. T. Huang X. Z. Huang Z. L. guang T. Hussain W. Ikegami Andersson M Irshad Q. Ji Q. P. Ji X. B. Ji X. L. Ji X. S. Jiang X. Y. Jiang J. B. Jiao Z. Jiao D. P. Jin S. Jin Y. Jin T. Johansson A. Julin N. Kalantar-Nayestanaki X. S. Kang M. Kavatsyuk B. C. Ke T. Khan A. Khoukaz P. Kiese R. Kliemt L. Koch O. B. Kolcu B. Kopf M. Kornicer M. Kuemmel M. Kuessner A. Kupsc M. Kurth W. Kiihn J. S. Lange M. Lara P. Larin L. Lavezzi S. Leiber H. Leithofi C. Li Cheng Li D. M. Li F. Li F. Y. Li G. Li H. B. Li H. J. Li J. C. Li J. W. Li K. J. Li Kang Li Ke Li Lei Li P. L. Li P. R. Li Q. Y. Li T. Li W. D. Li W. G. Li X. L. Li X. N. Li X. Q. Li Z. B. Li H. Liang Y. F. Liang Y. T. Liang G. R. Liao L. Z. Liao J. Libby C. X. Lin D. X. Lin S. Liu B. J. Liu C. X. Liu D. Liu D. Y. Liu F. H. Liu Fang Liu Feng Liu H. B. Liu H. L Liu H. M. Liu Huanhuan Liu Huihui Liu J. B. Liu J. Y. Liu K. Liu K. Y. Liu Ke Liu L. D. Liu Q. Liu S B. Y. Zhang144 C. C. Zhang1D. H. Zhang1 H. H. Zhang45H. Y. Zhang144 J. Zhang151 J. L. Zhang65 J. Q. Zhang4 J. W. Zhang1 J. Y. Zhang1 J. Z. Zhang151 K. Zhang151 L. Zhang46 S. F. Zhang35 T. J. Zhang3975 X. Y. Zhang38 Y. Zhang4457 Y. H. Zhang144 Y. T. Zhang4557 Yang Zhang1 Yao Zhang1 Yu Zhang51 Z. H. Zhang6 Z. P. Zhan57Z. Y. Zhang64 G. Zhao1J. W. Zhao144 J. Y. Zhao151 J. Z. Zhao144 Lei Zhao4457 Ling Zhao1 M. G. Zhao35 Q. Zhao1 S. J. Zhao67 T. C. Zhao1 Y. B. Zhao144 Z. G. Zhao4457 A. Zhemehugov2869 B. Zheng58J. P. Zheng144 W. J. Zheng38 Y. H. Zheng51B. Zhong33 L. Zhou144 Q. Zhou151 X. Zhou64 X. K. Zhou4457 X. R. Zhou4457 X. Y. Zhou1 A. N. Zhu151 J. Zhu35 J. Zhu45 K. Zhu1 K. J. Zhu1 S. Zhu1 S. H. Zhu56 X. L. Zhu46 Y. C. Zhu4457 Y. S. Zhu151 Z. A. Zhu151 J. Zhuang144B. S. Zou1 J. H. Zou1 （ 1 Institute of High Energy Physics Beijing 100049 China Beihang University Beijing 100191 China Beijing Institute of Petrochemical Technology Beijing 102617 China Bochum Ruhr-University D-44780 Bochum Germany Carnegie Mellon University Pittsburgh Pennsylvania 15213 USA Central China Normal University Wuhan 430079 China China Center of Advanced Science and Technology Beijing 100190 China COMSATS Institute of Information Technology Lahore Defence Road Off Raiwind Road 54000 Lahore Pakistan G.I. Budker Institute of Nuclear Physics SB RAS （BINP） Novosibirsk 630090 Russia GSI Helmholtzcentre for Heavy Ion Research GmbH D-64291 Darmstadt Germany Guangxi Normal University Guilin 541004 China Guangxi University Nanning 530004 China Hangzhou Normal University Hangzhou 310036 China Helmholtz Institute Mainz JohannwJoachim-Becher-Weg 45 D-55099 Mainz Germany Henan Normal University Xinxiang 453007 China Henan University of Science and Technology Luoyang 471003 China Huangshan College Huangshan 245000 China Hunan Normal University Changsha 410081 China Hunan University Changsha 410082 China Indian Institute of Tec

To investigate the nature of the Ψ（3770） resonance and to measure the cross section for e^＋e^-→DD, a cross-section scan data sample, distributed among 41 center-of-mass energy points from 3.73 to 3.89 GeV, was taken with the BESIII detector operated at the BEPCII collider in the year 2010. By analyzing the large angle Bhabha scattering events, we measure the integrated luminosity of the data sample at each center-of-mass energy point. The total integrated luminosity of the data sample is 76.16±0.04±0.61 pb^-1, where the first uncertainty is statistical and the second systematic.

关键词： Bhabha scattering events integrated luminosity BESⅢ

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Solar Cells: Oriented Grains with Preferred Low‐Angle Grain Boundaries in Halide Perovskite Films by Pressure‐Induced Crystallization (Adv. Energy Mater. 10/2018)

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advanced Energy Materials 2018年第10期8卷

作者： Wanjung Kim Myung Sun Jung Seonhee Lee Yung Ji Choi Jung Kyu Kim Sung Uk Chai Wook Kim Dae‐Geun Choi Hyungju Ahn Jeong Ho Cho Dukhyun Choi Hyunjung Shin Dongho Kim Jong Hyeok Park Department of Chemical and Biomolecular Engineering Yonsei University 50 Yonsei‐ro Seodaemun‐gu Seoul 120‐749 Republic of Korea Department of Energy Science Sungkyunkwan University Suwon Republic of Korea Spectroscopy Laboratory for Functional π‐Electronic Systems and Department of Chemistry Yonsei University 50 Yonsei‐ro Seodaemun‐gu Seoul 03722 Republic of Korea Department of Mechanical Engineering Stanford University Stanford CA 94305 USA Department of Mechanical Engineering Kyung Hee University 1732 Deogyeong‐daero Giheung‐gu Yongin‐si Gyeonggi‐do 17104 Republic of Korea Department of Nano Manufacturing Technology Nano‐Mechanical Systems Research Division Korea Institute of Machinery and Materials Daejon Republic of Korea Department of Industrial Technology Convergence Center Pohang Accelerator Laboratory POSTECH Pohang 37673 Republic of Korea SKKU Advanced Institute of Technology School of Chemical Engineering Sungkyunkwan University Suwon Republic of Korea

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Hydrogen Evolution: 2D‐Layered Carbon/TiO2Hybrids Derived from Ti3C2MXenesfor Photocatalytic Hydrogen Evolution under Visible Light Irradiation (Adv. Mater. Interfaces 20/2017)

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advanced Materials Interfaces 2017年第20期4卷

作者： Wenyu Yuan Laifei Cheng Yani Zhang Heng Wu Shilin Lv Liying Chai Xiaohui Guo Lianxi Zheng Science and Technology on Thermostructural Composite Materials Laboratory Northwestern Polytechnical University Xi'an 710072 China Key Lab of Synthetic and Natural Functional Molecule Chemistry of Ministry of Education College of Chemistry and Materials Science Northwest University Xi' an 710069 China State Key Laboratory of Solidification Processing Northwestern Polytechnical University Xi'an 710072 China Department of Mechanical Engineering Khalifa University Abu Dhabi 127788 UAE

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Graphene oxide enabled polymeric shape memory composites for enhanced electro-actuation

Graphene oxide enabled polymeric shape memory composites for...

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作者： Lu, Haibao Liang, Fei Zhu, Shipeng Yang, Yunhua Yao, Yongtao Fu, Y.Q. Science and Technology on Advanced Composites in Special Environments Laboratory Harbin Institute of Technology Harbin China Composite Materials and Structures Laboratory Department of Mechanical Materials and Aerospace Engineering University of Central Florida OrlandoFL United States Science and Technology on Advanced Functional Composites Laboratory Aerospace Research Institute of Materials and Processing Technology Beijing China Department of Physics and Electrical Engineering Faculty of Engineering and Environment University of Northumbria Newcastle-Upon-Tyne United Kingdom

An effective approach to improve the electrical properties and electro-activated performance of shape memory polymer (SMP) nanocomposites has been demonstrated via a synergistic effect from carbon fibre and self-assembled graphene oxide (GO). The surface modified GO has been grafted onto carbon fibre to enhance the interfacial strength with SMP matrix through van-der-Waals bonds and covalent crosslinking. Carbon fibre enhances the performance of electrical actuation of SMP through Joule heating. Furthermore, the temperature distribution within the SMP nanocomposite during Joule heating becomes uniform, resulting in a significant enhancement of shape recovery and electro-actuation performance of high recovery speed. Copyright © 2015 American Scientific Publishers All rights reserved.

关键词： Graphene

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Wang et al. Reply:

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Physical Review Letters 2016年第16期117卷 169702-169702页

作者： M. C. Wang S. Qiao Z. Jiang S. N. Luo J. Qi The Peac Institute of Multiscale Sciences Sichuan 610031 China Key Laboratory of Advanced Technologies of Materials Southwest Jiaotong University Sichuan 610031 China State Key Laboratory of Functional Materials for Informatics Shanghai Institute of Microsystem and Information Technology Chinese Academy of Sciences Shanghai 200050 China School of Physical Science and Technology ShanghaiTech University Shanghai 200031 China School of Physics Georgia Institute of Technology Atlanta Georgia 30332 USA

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High Resolution Transmission Electron Microscopy Study of Montmorillonite Subjected to Rapid Compression

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Microscopy and Microanalysis 2016年第S3期22卷 1860-1861页

作者： Yanyan Zhang Maobin Wei Yanzhang Ma Jharna Chaudhuri Center for High Pressure Science and Technology Advanced Research 2699 Qianjin Street Changchun China Institute of Condensed State Physics Key Laboratory of Functional Materials Physics and Chemistry of the Ministry of Education Jilin Normal University Siping China Department of Mechanical Engineering Texas Technology University 2703 7th Street Lubbock USA TX

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