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城市生态文明建设依托于生态效率的改善,基于2005—2016年长江经济带107座城市面板数据,采用超效率SBM(slacks-based measure)模型测算生态效率,并结合探索性空间分析与空间马尔科夫链等探讨生态效率时空演化格局的内在规律, 实证分析生态效率驱动因素的影响效果。研究表明:2005—2016年经济带生态效率总体呈平稳态势,上、中、下游呈现“阶梯型”分布,下游依次优于中游和上游地区,部分地区生态效率呈“两级型”分化趋势;城市间生态效率发展存在空间联动效应,与生态效率高的城市为邻,其正向溢出作用促进城市状态向高水平跃迁,而与生态效率低的城市为邻,其负向作用拉动城市状态向低水平发展;人口规模与产业升级对经济带不同流域具有异质性作用,其提升下游生态效率而抑制中游和上游生态效率,产业升级与生态效率存在“U”型关联,意味着产业升级在短期内并不能使生态效率状态改善,而经济发展有利于促进生态效率向高水平状态演变。 相似文献
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帕金森病(Parkinson's disease, PD)是一种老年期常见的神经系统退行性疾病,致病过程复杂,其发病机制尚未明确,目前普遍认为帕金森病的发生与环境、遗传和年龄等多个因素有关。microRNAs(miRNAs)是一种内源性的小分子非编码RNAs,在转录后水平调控人类基因组中约1/3的基因。大量研究表明,帕金森病与miRNAs存在密切关联,在PD的发生发展、诊断甚至治疗过程中起到重要作用。本综述讨论了最近研究报道的和帕金森病相关的miRNAs,并分析了miRNAs的特异性表达在帕金森病的致病机制和诊断中发挥的作用。 相似文献
85.
Xiuhui Huang Junfeng Li Jun Wang Zeqiu Li Jiayin Xu 《Frontiers of Chemical Science and Engineering》2020,14(4):534
In the last decades, many reports dealing with technology for the catalytic combustion of methane (CH4) have been published. Recently, attention has increasingly focused on the synthesis and catalytic activity of nickel oxides. In this paper, a NiO/CeO2 catalyst with high catalytic performance in methane combustion was synthesized via a facile impregnation method, and its catalytic activity, stability, and water-resistance during CH4 combustion were investigated. X-ray diffraction, low-temperature N2 adsorption, thermogravimetric analysis, Fourier transform infrared spectroscopy, hydrogen temperature programmed reduction, methane temperature programmed surface reaction, Raman spectroscopy, electron paramagnetic resonance, and transmission electron microscope characterization of the catalyst were conducted to determine the origin of its high catalytic activity and stability in detail. The incorporation of NiO was found to enhance the concentration of oxygen vacancies, as well as the activity and amount of surface oxygen. As a result, the mobility of bulk oxygen in CeO2 was increased. The presence of CeO2 prevented the aggregation of NiO, enhanced reduction by NiO, and provided more oxygen species for the combustion of CH4. The results of a kinetics study indicated that the reaction order was about 1.07 for CH4 and about 0.10 for O2 over the NiO/CeO2 catalyst. 相似文献
86.
Liqiang Ren Shujie Yang Peiran Zhang Zhiguo Qu Zhangming Mao Po‐Hsun Huang Yuchao Chen Mengxi Wu Lin Wang Peng Li Tony Jun Huang 《Small (Weinheim an der Bergstrasse, Germany)》2018,14(40)
Microfluidic fluorescence‐activated cell sorters (μFACS) have attracted considerable interest because of their ability to identify and separate cells in inexpensive and biosafe ways. Here a high‐performance μFACS is presented by integrating a standing surface acoustic wave (SSAW)‐based, 3D cell‐focusing unit, an in‐plane fluorescent detection unit, and an SSAW‐based cell‐deflection unit on a single chip. Without using sheath flow or precise flow rate control, the SSAW‐based cell‐focusing technique can focus cells into a single file at a designated position. The tight focusing of cells enables an in‐plane‐integrated optical detection system to accurately distinguish individual cells of interest. In the acoustic‐based cell‐deflection unit, a focused interdigital transducer design is utilized to deflect cells from the focused stream within a minimized area, resulting in a high‐throughput sorting ability. Each unit is experimentally characterized, respectively, and the integrated SSAW‐based FACS is used to sort mammalian cells (HeLa) at different throughputs. A sorting purity of greater than 90% is achieved at a throughput of 2500 events s?1. The SSAW‐based FACS is efficient, fast, biosafe, biocompatible and has a small footprint, making it a competitive alternative to more expensive, bulkier traditional FACS. 相似文献
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Xiling Yao Seung Ki Moon Guijun Bi Jun Wei 《The International Journal of Advanced Manufacturing Technology》2018,99(9-12):2111-2119
Additive manufacturing (AM) technologies provide more freedom to functional part design in various industries. One of the unique capabilities of AM is that multi-material parts can be produced with material compositional and geometric complexity. Multi-material parts have the advantage of achieving multiple performance requirements. In the research, we propose a framework for designing multi-material parts using AM processes. The proposed framework is composed of four interacting modules, including design requirement identification, primary material selection, AM process selection, material composition, and part geometry determination. Rules and guidelines for AM are integrated into the proposed framework with AM processes’ capabilities and constraints compiled in databases. We also introduce databases to assist in decision-making and ensure manufacturability of the designed multi-material part in various product design phases. The proposed framework is applied to a case study involving a conceptual design of a multi-material battery pack cooling plate. 相似文献
90.
Jun Xiang Xinxin Hua Xingfeng Dong Penggao Cheng Lei Zhang Wei Du Na Tang 《应用聚合物科学杂志》2019,136(15):47525
Different nonsolvent additives, namely, diethylene glycol, n-butyl alcohol (NBA), and ethylene glycol monomethyl ether, were added into the casting solution (polyethersulfone/dimethylformamide/lithium chloride) to prepare ultrafiltration (UF) membrane via phase inversion. The effects of different additives and their concentration on the pore structure of the prepared UF membrane were studied. The cross-sectional morphology of the membrane was observed via scanning electron microscopy. The addition of nonsolvent additives improved the large-cavity structure of the membrane. When the additive was low-content NBA (1–3 wt %), the membrane pore structure transformed from large-cavity structure to fully sponge-like structure. When the content of additive NBA was 3 wt %, the flux of the prepared UF membrane was 130.45 L (m−2 h−1), the rejection of PEG20000 was 95.54% and the flux remained high at 4 bar in long-term stability test. © 2019 Wiley Periodicals, Inc. J. Appl. Polym. Sci. 2019 , 136, 47525. 相似文献