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国家自然科学基金(61227902): 作品数：75被引量：157H指数：7; 导出分析报告; 相关作者：全伟杨远洪张天才王军民李刚更多>>; 相关机构：北京航空航天大学山西大学华东师范大学上海航天控制工程研究所更多>>; 相关期刊：《Chinese Physics B》《Control Theory and Technology》《仪表技术与传感器》《传感器与微系统》更多>>; 相关主题：原子磁强计MAGNETOMETER弛豫RELAXATION碱金属更多>>; 相关领域：理学机械工程电子电信一般工业技术更多>>

Cardiac patches made of brown adipose-derived stem cell sheets and conductive electrospun nanofibers restore infarcted heart for ischemic myocardial infarction被引量：2: 《Bioactive Materials》2023年第9期271-287,共17页Xinbo Wei Li Wang Cuimi Duan Kai Chen Xia Li Ximin Guo Peng Chen Haifeng Liu Yubo Fan; supported by the National Natural Science Foundation of China(32071359,11827803,61227902,and U20A20390);National Key Technology R&D Program(2020YFC0122203);International Joint Research Center of Aerospace Biotechnology and Medical Engineering from Ministry of Science and Technology of China;111 Project(B13003);Research Fund for the Doctoral Program of Higher Education of China(20131102130004);Fundamental Research Funds for the Central Universities.; Cell sheet engineering has been proven to be a promising strategy for cardiac remodeling post-myocardial infarction. However, insufficient mechanical strength and low cell retention lead to limited therapeutic efficie...; 关键词：Myocardial infarction brown adipose-derived stem cells Cell sheet engineering Electrospun nanofibers Polycaprolactone/silk fibroin Carbon nanotubes

高精度光纤旋转地震仪研究及应用被引量：1: 《中国激光》2022年第19期40-49,共10页李帅杨远洪李良祯王孺沫; 国家重点研发计划(2018YFC1503703);国家自然科学基金(61227902,U1637106);创新团队发展计划(IRT1203)。; 基于光纤陀螺(FOG)的光纤旋转地震仪(FORS)对平动不敏感,兼具低噪声、高灵敏度和便携等优点,特别适用于行星地震学中三维旋转分量的观测。基于偏光干涉理论建立了消偏FOG中Sagnac干涉仪环路(SIA)的输出光谱模型,揭示了消偏FOG的误差机理...; 关键词：测量光纤陀螺旋转地震仪行星地震学自噪声

基于Sagnac干涉仪的光纤耦合器耦合相移检测技术被引量：2: 《中国激光》2022年第9期88-95,共8页王瑞琴杨远洪李慧; 国家自然科学基金(61227902,U1637106);国家重点研发计划(2018YFC1503703);创新团队发展计划(IRT1203)。; 提出了一种基于混合Sagnac干涉仪的光纤耦合器耦合相移检测技术,其中混合Sagnac干涉仪由待测单模光纤耦合器和保偏光纤组成。基于混合Sagnac干涉仪互易端口和非互易端口输出干涉光谱的谷值波长特征,推导出单模光纤耦合器耦合相移检测方...; 关键词：光纤光学单模光纤耦合器耦合相移 SAGNAC干涉仪

光纤氢气传感技术(特邀)被引量：3: 《红外与激光工程》2022年第1期370-381,共12页李慧杨远洪; 国家自然科学基金(61227902,U1637106);国家重点研发计划(2018 YFC1503703-4);创新团队发展计划(IRT 1203)。; 光纤氢气传感器采用光纤作为传光或者传感的介质,基于氢敏材料的相关理化特性实现氢气检测,具有本质安全、稳定性好、体积小、质量轻和易组网等优良特性,是目前氢气传感和光纤传感领域的研究热点。文中首先介绍了典型氢敏材料的作用机...; 关键词：光纤氢气传感器氢敏材料应变调制折射率调制温度调制

原子自旋进动检测技术: 《应用科学学报》2021年第5期777-792,共16页陈东营杨远洪; 国家自然科学基金(No.61227902,No.U1637106);国家重点研发计划(No.2018YFC1503703-4);创新团队发展计划(No.IRT 1203)资助。; 自旋是原子的内禀特性,自旋进动对磁场作用或相对惯性空间的转动敏感,通过检测原子的自旋进动可实现磁场或惯性转动的测量,进而形成原子磁强计、原子陀螺和其他原子传感器。基于原子无自旋交换弛豫(spin-exchange relaxation free,SERF...; 关键词：原子自旋进动自旋进动检测核磁共振陀螺 SERF原子陀螺 SERF磁强计

Bilayer nicorandil-loaded small-diameter vascular grafts improve endothelial cell function via PI3K/AKT/eNOS pathway: 《Bio-Design and Manufacturing》2021年第1期72-86,共15页Zheng Xing Chen Zhao Chunchen Zhang Yubo Fan Haifeng Liu; This work was supported by the National Natural Science Foundation of China(31771058,32071359,11421202,61227902 and 11120101001);NationalKey Technology R&D Program(2016YFC1100704,2016YFC1101101);International Joint Research Center of Aerospace Biotechnology and Medical Engineering from Ministry of Science and Technology of China;111 Project(B13003);Research Fund for the Doctoral Program of Higher Education of China(20131102130004);Fundamental Research Funds for the Central Universities.; For the surgical treatment of cardiovascular disease(CVD),there is a clear and unmet need in developing small-diameter(diameter<6 mm)vascular grafts.In our previous work,sulfated silk fibroin(SF)was successfully fabri...; 关键词：Bilayer vascular grafts NICORANDIL Sulfated silk fibroin Endothelial cell function PI3K/AKT/eNOS pathway

Three-dimensional silk fibroin microsphere-nanofiber scaffolds for vascular tissue engineering: 《Medicine in Novel Technology and Devices》2021年第1期52-59,共8页Qiang Liu Guoliang Ying Nan Jiang Ali KYetisen Danyu Yao Xiaoying Xie Yubo Fan Haifeng Liu; This work was supported by the National Natural Science Foundation of China(31771058,32071359,11421202,61227902,and 11120101001);National Key Technology R&D Program(2016YFC1100704,2016YFC1101101);International Joint Research Center of Aerospace Biotechnology and Medical Engineering from Ministry of Science and Technology of China,111 Project(B13003);Research Fund for the Doctoral Program of Higher Education of China(20131102130004);Fundamental Research Funds for the Central Universities.G.L.Y.thanks Hubei Provincial Natural Science Foundation of China(No.2014CFB778).; A significant limitation in the engineering of artificial small-diameter vascular scaffolds is that the number of endothelial cells(ECs)is not sufficient to generate a confluent coverage of the vascular scaffolds,so t...; 关键词：MICROFLUIDICS Silk fibroin ELECTROSPINNING MICRO/NANOSTRUCTURE Tissue engineering

Influence of pump intensity on atomic spin relaxation in a vapor cell被引量：1: 《Chinese Physics B》2019年第11期339-343,共5页Chen Yang Guan-Hua Zuo Zhuang-Zhuang Tian Yu-Chi Zhang Tian-Cai Zhang; supported by the National Key R&D Program of China(Grant No.2017YFA0304502);the National Natural Science Foundation of China(Grant Nos.11634008,11674203,11574187,and 61227902); Atomic spin relaxation in a vapor cell, which can be characterized by the magnetic resonance linewidth(MRL),is an important parameter that eventually determines the sensitivity of an atomic magnetometer. In this paper...; 关键词：ATOMIC MAGNETOMETER ATOMIC SPIN RELAXATION optical PUMPING

Tracking control and parameter identification with quantized ARMAX systems被引量：7: 《Science China(Information Sciences)》2019年第9期211-213,共3页Lida JING Jifeng ZHANG; supported by National Natural Science Foundation of China (Grant Nos. 61877057, 61227902); Dear editor,After decades of development,system modeling and control theory have developed thoroughly.Various identification,estimation and control methods have been given(1)However,most of these results are based on ...; 关键词：TRACKING control and PARAMETER IDENTIFICATION with QUANTIZED ARMAX systems

Optimization of a magneto–optic trap using nanofibers被引量：2: 《Chinese Physics B》2019年第7期198-201,共4页Xin Wang Li-Jun Song Chen-Xi Wang Peng-Fei Zhang Gang Li Tian-Cai Zhang; Project supported by the National Key Research and Development Program of China(Grant No.2017YFA0304502);the National Natural Science Foundation of China(Grant Nos.11574187,11634008,11674203,and 61227902);the Fund for Shanxi “1331 Project”,China; We experimentally demonstrate a reliable method based on a nanofiber to optimize the number of cold atoms in a magneto–optical trap(MOT) and to monitor the MOT in real time.The atomic fluorescence is collected by a n...; 关键词：NANOFIBER magneto–optic TRAP OPTIMIZATION fluorescence efficient coupling

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