科研成果

2019
袁诚, 何西龙, 刘冲. PPP、资本流动与地区税率:基于税收竞争的理论与实证分析. 财贸经济. 2019;40(05):23-38.
Fang ZC, Tan J, Wu SF, Li M, Xu CM, Xie ZJ, Zhu HQ. PPR-Meta: a tool for identifying phages and plasmids from metagenomic fragments using deep learning. Gigascience [Internet]. 2019;8. 访问链接
Liu FL, Li JH, Zhang K, Peng S, Huang H, Yan M, Li NN, Zhang Q, Guo SH, Lü XJ, et al. Pressure-induced Lifshitz transition in the type II Dirac semimetal PtTe 2. SCIENCE CHINA Physics, Mechanics & Astronomy. 2019;62:48211.
Huang R-J, Wang Y, Cao J, Lin C, Duan J, Chen Q, Li Y, Gu Y, Yan J, Xu W, et al. Primary emissions versus secondary formation of fine particulate matter in the most polluted city (Shijiazhuang) in North China. Atmospheric Chemistry and Physics. 2019;19:2283-2298.
Attari M, Malkowsky S, Tao Y, Zhang Z, Edfors O, Liu L. A Programmable 16x16 Systolic Array Enhanced ASIP for Massive MIMO, in 2019 IEEE Asilomar Conference on Signals, Systems, and Computers. IEEE; 2019. 访问链接
Hu Y*, Zheng Z. Progress in textile-based triboelectric nanogenerators for smart fabrics. Nano energy. 2019;56:16–24.
Hu Y*, Zheng Z. Progress in textile-based triboelectric nanogenerators for smart fabrics. Nano energy. 2019;56:16–24.
Li S, Yang K, Li Z, Zhang K, Jia N. Properties of CO2 Foam Stabilized by Hydrophilic Nanoparticles and Nonionic Surfactants. Energy & Fuels [Internet]. 2019;33:5043-5054. 访问链接
Yan P. The Public-Private Partnership (PPP) Model in The Development of E-Commerce and Digital Skill Trainings in Rural China. Pathways for Prosperity, Blavatnik School of Government, U of Oxford; 2019.
Yan P. Pulling, encountering, or through proxies? Everyday life information seeking and the use of the Internet in China., in The 17th Chinese Internet Research Conference (CIRC).; 2019.
Denworth L, 张慧铭(译). P值危机:统计学需要一场变革. 环球科学 [Internet]. 2019;21:76-81. 访问链接Abstract
近100年来,统计学家使用p值来描述数据的统计显著性,这种方法造成了许多人在工作中把统计显著性当作了实际显著性,做出了很多不科学的决策。
Li D, Jiang T, Jiang M. Quality Assessment of In-the-Wild Videos, in Proceedings of the 27th ACM International Conference on Multimedia, MM 2019, Nice, France, October 21-25, 2019. ACM; 2019:2351–2359. 访问链接
Zhang K, Jia N, Li S, Liu L. Quantification and Evaluation of Thermodynamic Miscibility in Nanoconfined Space. Industrial & Engineering Chemistry Research [Internet]. 2019;58:4609-4624. 访问链接
Wu R, Dai* H, Geng Y, Xie Y, Tian X. Quantifying the impacts of export restructuring on macro economy and CO2 emissions: A general equilibrium analysis for China. Applied Energy [Internet]. 2019;248:64-78. 访问链接
Yuan X, Zhao Q, Girolami D, Ma X. Quantum Coherence and Intrinsic Randomness. Advanced Quantum Technologies. 2019:1900053.
Li Y-H, Han X, Cao Y, Yuan X, Li Z-P, Guan J-Y, Yin J, Zhang Q, Ma X, Peng C-Z. Quantum random number generation with uncharacterized laser and sunlight. npj Quantum Information. 2019;5(1):1-5.
Zhang K, Jia N, Li S, Liu L. Rapid Determination of Interfacial Tensions in Nanopores: Experimental Nanofluidics and Theoretical Models. Langmuir [Internet]. 2019;35:8943-8949. 访问链接
Xue T, Liu J, Zhang Q, Geng G, Zheng Y, Dan T, Liu Z, Guan D, Bo Y, Zhu T, et al. Rapid improvement of PM2.5 pollution and associated health benefits in China during 2013–2017. SCIENCE CHINA Earth Sciences. 2019.
Hu Z, Chen X, Wu Z, Han W. RapidPrototypingofaSevenLayerMicrofluidicChipwithDifferentPolymerSheetsUsing Hot Bonding andaCO2 Laser Beam. LASERS IN ENGINEERING. 2019;43(4-6):329-340.Abstract
A process of fabricating a seven layer microfluidic chip using CO2 laser processing and hot bonding technology is presented. The applied polymer substrates were poly(methyl-methacrylate) (PMMA), polycarbonate (PC), polystyrene (PS) and polyethylene terephthalate (PET). The results show the optimal combination of polymer substrates for the seven layer microfluidic chip at the hot bonding parameters of bonding temperature of 100 degrees C and bonding pressure of 1 MPa for maintaining times of nine minutes. Due to the different properties of the polymer substrates, the profile of the microchannel in the different polymer sheets for the same CO2 laser processing parameters. The maximum tensile strength of the microfluidic was measured as 1.0 MPa. The combined polymers with the minimum binding force were PC and PMMA. At the end, a mixing experiment was performed in the seven layer microfluidic chip with different fluid Re numbers.
Sun M-H, Wang G-B, zhang X-R. Rayleigh-Benard convection of non-Newtonian nanofluids considering Brownian motion and thermophoresis. International Journal of Thermal Sciences [Internet]. 2019;139:312-325. 访问链接

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