陶小凡-
1. Yingmeng Zhang, Weixin Zhang(*), Zeheng Yang, Heyun Gu, Qing Zhu, Shihe Yang(*), Mei Li, Self-sustained cycle of hydrolysis and etching at solution/solid interfaces: a general strategy to prepare metal oxide micro/nanostructured arrays for high-performance electrodes, Angew. Chem. Int. Ed., 2015, 54: 3932-3936. (影响因子: 11.336)
2. Weixin Zhang(*), Guo Ma, Heyun Gu, Zeheng Yang, He Cheng. A new lithium-ion battery: CuO nanorod array anode versus spinel LiNi0.5Mn1.5O4 cathode, J. Power Sources, 2015, 273: 561-565. (影响因子: 5.211)
3. Zeheng Yang, Jianbo Lu, Doucheng Bian, Weixin Zhang(*), Xiaoning Yang, Jianfeng Xia, Gongde Chen, Heyun Gu, Guo Ma. Stepwise co-precipitation to synthesize LiNi1/3Co1/3Mn1/3O2 one-dimensional hierarchical structure for lithium ion batteries, J. Power Sources, 2014, 272: 144-151. (影响因子: 5.211)
4. Weixin Zhang, Mei Li, Qiang Wang, Gongde Chen, Mei Kong, Zeheng Yang, Stephen Mann(*), Hierarchical self-assembly of microscale cog-like superstructures for enhanced performance in lithium-ion batteries, Adv. Funct. Mater., 2011, 21(18): 3516-3523. (影响因子: 10.439)
5. Weixin Zhang(*), Gongde Chen, Zeheng Yang, Chunyan Zeng, A novel approach to well-aligned TiO2 nanotube arrays and their enhanced photocatalytic performances, AIChE J., 2013, 59(6): 2134-2144. (影响因子: 2.581)
6. Bo Pei, Zhongqing Jiang, Weixin Zhang(*), Zeheng Yang, and Arumugam Manthiram(*), Nanostructured Li3V2(PO4)3 cathode supported on reduced graphene oxide for lithium-ion batteries, J. Power Sources, 2013, 239: 475-482. (影响因子: 5.211)
7. Bo Pei, Hongxu Yao, Weixin Zhang(*), Zeheng Yang, Hydrothermal synthesis of morphology-controlled LiFePO4 cathode material for lithium-ion batteries, J. Power Sources, 2012, 220: 317-323. (影响因子: 5.211)
8. Qiang Wang, Weixin Zhang(*), Zeheng Yang, Shaoying Weng, Zhuojie Jin, Solvothermal synthesis of hierarchical LiFePO4 microflowers as cathode materials for lithium ion batteries, J. Power Sources, 2011, 196(23): 10176-10182. (影响因子: 5.211)
9. Weixin Zhang(*), Zaoyuan Zhou, Wenran Zhao, Zeheng Yang, Xiaoning Yang, Chemical replacement route to Cu2-xSe-coated CuO nanotube array anode for enhanced performance in lithium ion batteries, J. Mater. Chem. A, 2014, 2(16): 5800-5808.
10. Zeheng Yang, Feifei Xu, Weixin Zhang(*), Bo Pei, Xiao Zhu, Controllable preparation of multishelled NiO hollow nanospheres via layer-by-layer self-assembly for supercapacitor application, J. Power Sources, 2014, 26: 24-31. (影响因子: 5.211)
11. Jun Zhang, Jianbo Lu, Doucheng Bian, Zeheng Yang(*), Qing Wu, Weixin Zhang(*), Solvothermal synthesis of hierarchical LiFePO4 microplates with exposed (010) faces as cathode materials for lithium ion batteries, Ind. Eng. Chem. Res., 2014, 53(31): 12209-12215. (影响因子: 2.235)
12. Yanmei Pan, Zhousheng Mei, Zeheng Yang(*), Weixin Zhang, Bo Pei, Hongxu Yao, Facile synthesis of mesoporous MnO2/C spheres for supercapacitor electrodes, Chem. Eng. J., 2014, 242: 397-403. (影响因子: 4.058)
13. Zaoyuan Zhou, Weixin Zhang(*), Wenran Zhao, Zeheng Yang, Chunyan Zeng, A replacement etching route to CuSe with a hierarchical hollow structure for enhanced performance in lithium ion batteries, J. Electron. Mater., 2014, 43(2): 359-368.
14. Weixin Zhang(*), Xiaoning Yang, Qian Zhu, Kun Wang, Jianbo Lu, Min Chen, and Zeheng Yang(*). One-pot room temperature synthesis of Cu2O/Ag composite nanospheres with enhanced visible-light-driven photocatalytic performance, Ind. Eng. Chem. Res., 2014, 53(42): 16316-16323. (影响因子: 2.235)
15. Yingmeng Zhang, Weixin Zhang(*), Mei Li, Zeheng Yang, Gongde Chen, Qiang Wang, Cosurfactant-mediated microemulsion to free-standing hierarchical CuO arrays on copper substrates as anodes for lithium-ion batteries, J. Mater. Chem. A, 2013, 1(45): 14368-14374.
16. Weixin Zhang(*), Hui Wang, Yingmeng Zhang, Zeheng Yang, Qiang Wang, Jianfeng Xia, Xiaoning Yang, Facile microemulsion synthesis of porous CuO nanosphere film and its application in lithium ion batteries, Electrochim. Acta, 2013, 113: 63-68. (影响因子: 4.086)
17. Chunyan Zeng, Weixin Zhang(*), Shaixia Ding, Zeheng Yang, Hui Zeng, Zhangcheng Li, Oriented attachment growth of ultra-long Ag2Se crystalline nanowires via water evaporation-induced self-assembly, CrystEngComm., 2013 15(25): 5127-5133. (影响因子: 3.858)
18. Weixin Zhang(*), Hui Zeng, Zeheng Yang, Qiang Wang, New strategy to the controllable synthesis of CuInS2 hollow nanospheres and their applications in lithium ion batteries, J. Solid State Chem., 2012, 186: 58-63.
19. Bo Pei, Qiang Wang, Weixin Zhang(*), Zeheng Yang, Min Chen, Enhanced performance of LiFePO4 through hydrothermal synthesis coupled with carbon coating and cupric ion doping, Electrochim. Acta, 2011, 56(16): 5667-5672. (影响因子: 4.086)
20. Mei Kong, Weixin Zhang(*), Zeheng Yang, Shaoying Weng, Zhangxian Chen, Facile synthesis of CuO hollow nanospheres assembled by nanoparticles and their electrochemical performance, Appl. Surf. Sci., 2011, 258(4): 1317-1321.
21. Jun Xu, Chun-Sing Lee(*), Yongbing Tang, Xue Chen, Zhenhua Chen, Wenjun Zhang, Shuit-Tong Lee, Weixin Zhang(*), Zeheng Yang, Large-scale synthesis and phase transformation of CuSe, CuInSe2, and CuInSe2/CuInS2 core/shell nanowire bundles, ACS Nano, 2010, 4(4): 1845-1850. (影响因子: 12.033)
22. Weixin Zhang(*), Shihe Yang (*), In-situ fabrication of inorganic nanowire arrays grown from and aligned on metal substrates, Acc. Chem. Res., 2009, 42(10): 1617-1627. (影响因子24.348)
23. Jun Xu, Weixin Zhang(*), Zeheng Yang, Shaixia Ding, Chunyan Zeng, Lingling Chen, Qiang Wang, Shihe Yang (*), Large-scale synthesis of long crystalline Cu2-xSe nanowire bundles by water evaporation induced self-assembly and their application in gas sensing, Adv. Funct. Mater., 2009, 19: 1759-1766. (影响因子: 10.439)
24. Weixin Zhang(*), Zhangxian Chen, Zeheng Yang, An inward replacement/etching route to synthesize double-walled Cu7S4 nanoboxes and their enhanced performances in ammonia gas sensing, Phys. Chem. Chem. Phys., 2009, 11(29): 6263- 6268. (影响因子: 4.198)
25. Jun Xu, Yongbing Tang, Weixin Zhang(*), Chun-Sing Lee, Zeheng Yang, Shuit-Tong Lee(*), Fabrication of architectures with dual hollow structures: arrays of Cu2O nanotubes organized by hollow nanospheres, Cryst. Growth Des., 2009, 9 (14): 4524-4528. (影响因子: 4.558)
26. Jun Xu, Weixin Zhang(*), Zeheng Yang, Shihe Yang(*), Lithography inside Cu(OH)2 nanorods: A general route to controllable synthesis of the arrays of copper chalcogenide nanotubes with double walls, Inorg. Chem., 2008, 47(2): 699-704. (影响因子: 4.794)
27. Weixin Zhang(*), Jun Xu, Zeheng Yang, Shaixia Ding, Mesoscale organization of Cu7S4 nanowires: formation of novel sheath-like nanotube array, Chem. Phys. Lett., 2007, 434 (4-6): 256-259.
28. Weixin Zhang(*), Zeheng Yang, Xue Wang, Yuancheng Zhang, Xiaogang Wen, Shihe Yang(*), Large-scale synthesis of β-MnO2 nanorods and their rapid and efficient catalytic decomposition of methylene blue dye, Catal. Commun., 2006, 7: 408-412. (影响因子: 3.320)
29. Zeheng Yang, Weixin Zhang(*), Qiang Wang, Xinmin Song, Yitai Qian(*), Synthesis of porous and hollow microspheres of nanocrystalline Mn2O3, Chem. Phys. Lett., 2006, 418: 46-49.
30. Weixin Zhang(*), Zeheng Yang, Yi Liu, Shupei Tang, Xiaozhao Han, Min Chen, Controlled synthesis of Mn3O4 nanocrystallites and MnOOH nanorods by a solvothermal method, J. Cryst. Growth, 2004, 263: 394-399.
31. Weixin Zhang(*), Yi Liu, Zeheng Yang, Shupei Tang, Min Chen, Synthesis and characterization of nanostructured Li2MnO3 from nanostructured MnOOH precursors, Solid State Commun., 2004, 131(7): 441-445.
32. Weixin Zhang, Xiaogang Wen, Shihe Yang(*), Y. Berta, Zhonglin Wang, Single crystalline scroll-type nanotube arrays of copper hydroxide synthesized at room temperature, Adv. Mater., 2003, 15 (10): 822-825. (影响因子: 15.409)
33. Weixin Zhang, Xiaogang Wen, Shihe Yang(*), Synthesis and characterization of uniform arrays of copper sulphide (Cu2S) nanorods coated with nano-layers of polypyrrole, Langmuir, 2003, 19: 4420-4426. (影响因子: 4.384)
34. Weixin Zhang, Xiaogang Wen, Shihe Yang(*), Controlled reactions on a copper surface: synthesis and characterization of nanostructured copper compound films, Inorg. Chem., 2003, 42: 5005-5014. (影响因子: 4.794)
35. Xiaogang Wen, Weixin Zhang, Shihe Yang(*), Solution phase synthesis of Cu(OH)2 nanoribbons by coordination self-assembly using Cu2S nanowires as precursors, Nano Lett., 2002, 2 (12): 1397-1401. (影响因子: 12.940)
36. Weixin Zhang, Xiaoming Zhang, Lei Zhang, Jianxin Wu, Zehua Hui, Youwei Cheng, Juewen Liu, Yi Xie, Yitai Qian(*), A redox reaction to synthesize nanocrystalline Cu2-xSe in aqueous solution, Inorg. Chem., 2000, 39(9): 1838-1839. (影响因子: 4.794)
carbon nanotubes是什么意思
1. 碳纳米管2. 纳米碳管3. 奈米碳管4. 巴基管例句:1.Some researchers are working on sponges made of carbon nanotubes thatsoak up hydrogen. 一些研究者正在致力于由碳纳米管制成的海绵体来吸收氢气。2.Others, made of iron phosphate covered in carbon nanotubes, form thepositive poles. 一些则由磷酸铁制成,由碳纳米管包裹,作为电池的正极。2023-07-23 06:57:061
carbon nanotubes是什么意思
carbon nanotubes碳纳米管双语对照词典结果:网络释义1. 碳纳米管2. 纳米碳管3. 奈米碳管-----------------------------------如有疑问欢迎追问!满意请点击右上方【选为满意回答】按钮2023-07-23 06:57:142
multi-walled carbon nanotubes是什么意思
多层隔阂(墙)碳素纳米管multi-walled carbon nanotubes2023-07-23 06:57:212
multi-walled carbon nanotubes是什么意思
多壁碳纳米管双语对照词典结果:multi-walled carbon nanotubes多壁碳管; 多壁纳米碳管; 很高兴为您解答祝你生活愉快,学习进步如果你对这个答案有什么疑问,请追问如果满意记得采纳哦·~~2023-07-23 06:57:281
翻译中译英
楼主去金山词霸在线翻译吧,2023-07-23 06:57:372
Interlayer Carbon Nanotubes 物理专业词汇
这个题目不好,容易有歧义,很少人用。如果你非要用,应该翻译为“层间碳纳米管”(注意是碳元素的碳,不是木炭的炭)。2023-07-23 06:57:441
麻烦各位有谁能帮我翻译一下?
要由于其高刚度和强度,以及其电导率,碳纳米管正在激烈进行调查,作为填料在聚合物基复合材料。性质的碳纳米管/聚合物粘接和曲率的碳纳米管与聚合物产生的因素,特别是在疗效碳纳米管实际上提供任何增强刚度或力量的综合。这里的影响碳纳米管的曲率和界面的相互作用与基质对综合刚度进行调查,使用微分析。特别是,效果欠佳的结合,从而穷人的剪力滞负荷转移到碳纳米管的研究。在该案件穷人的结合,碳纳米管的波纹显示,以提高综合刚度。2023-07-23 06:57:522
细胞成像中为什么要测亮场,荧光场与叠加场
细胞成像中为什么要测亮场,荧光场与叠加场利用圆柱形结构的增强效应能提高丝状阴极场发射性能的这个特性, 设计了场发射荧光灯.采用热敷法将配制好的碳纳米管(Carbon Nanotubes,CNT)浆料转移到镍丝(Ni)表面制备.2023-07-23 06:58:001
张广宇的过去的主要工作及获得的成果
自2001年起主要从事碳纳米材料的合成、组装、物性与器件研究。主要结果有:1. 实验上第一次合成了石墨纳米锥结构和纳米螺旋纤维2. 发展了一种等离子体辅助的化学气相生长技术来生长高质量、定向、大面积的单壁碳纳米管阵列3. 深入研究了单壁碳纳米管表面的原子氢的化学吸附/脱附行为及导致的金属-半导体转变4. 利用等离子体刻蚀手段实现了金属性单壁碳纳米管的选择性刻蚀,成功制备出纯半导体纳米管大功率场效应管器件发表及合作发表论文20余篇,他人引用次数超过500次。其中第一作者文章10篇,包括Science 2篇, PNAS 1篇, JACS 1篇,等等。近期5篇代表性工作:1. G. Y. Zhang, X. Jiang & E. G. Wang, Tubular Graphite cones, Science 300, 472 (2003)2. G. Y. Zhang, D. Mann, L. Zhang, A. Javey, Y. M. Li, E. Yenilmez, Q. Wang, J. P. McVittie, Y. Nishi, J. Gibbons & H. Dai, Ultra-high-yield growth of vertical single-walled carbon nanotubes: Hidden roles of hydrogen and oxygen, PNAS 102, 16141 (2005).3. G. Y. Zhang, P. F. Qi, X. R. Wang, Y. R. Lu, D. Mann, X. L. Li & H. Dai, Hydrogenation, Hydrocarbonation and etching of single walled carbon nanotubes, JACS 128, 6026 (2006).4. G. Y. Zhang, P. F. Qi, X. R. Wang, Y. R. Lu, X. L. Li, R. Tu, S. Bangsaruntip, D. Mann, L. Zhang & H. Dai, Selectively Etching of Metallic Carbon Nanotubes by Gas-phase Reaction, Science 314, 974 (2006).5. X. L. Li, G. Y. Zhang, X.D. Bai, X. M. Sun, X. R. Wang, E. G. Wang and H. Dai, Highly Conducting Graphene Sheets and Langmuir-Blodgett Films, Nature Nanotechnology 3, 538 (2008)目前的研究课题及展望: 目前承担的课题有:中科院“百人计划”资助课题、物理所人才启动计划资助课题、“全国百篇优秀博士毕业论文”资助课题等。2023-07-23 06:58:071
费俊杰的科研成果
标记*表示为通讯联系人(影响因子源自07年IF数据)1 Xiaoqin Wen, Junjie Fei*, Xiaoming Chen, Lanhua Yi, Fang Ge and Meihua Huang, Electrochemical analysis of trifluralin using a nanostructuring electrode with multi-walled carbon nanotubes, Environmental Pollution, Available online 9 June 2008, (SCI源刊,影响因子3.135)2 Junjie Fei*, Xiaoqin Wen, LanhuaYi, Fang Ge, Ying Zhang, Meihua Huang, Xiaoming Chen, Electrochemical determination diethylstilbestrol by a single-walled carbon nanotubes/platinum nanoparticles composite film electrode, Journal of Applied Electrochemistry, Published online 27 May 2008 (SCI收录,影响因子1.417)3 Junjie Fei*, Xiaoqin Wen, Ying Zhang, Lanhua Yi, Xiaoming Chen*, Hui Cao, Voltammetric determination of trace doxorubicin at a nanotitania/nafion composite film modified electrode in the presence of cetyltrimethylammonium bromide, Microchimica Acta, Published online 4 April 2008 (SCI源刊,影响因子1.959)4 Peihong Deng, Junjie Fei*, Jun Zhang, Junan Li, Determination of Trace Copper by Adsorptive Voltammetry Using a Multiwalled Carbon Nanotube Modified Carbon Paste Electrode, Electroanalysis (2008) 20 (11) 1215-1219. (SCI源刊,影响因子2.949)5 DENG PeiHong, FEI JunJie, ZHANG Jun, Li JuNan, Trace determination of zirconium using anodic adsorptive voltammetry at a multi-walled carbon nanotubes modified carbon paste electrode, Chinese Science Bulletin 2008, 53 (11): 1665-1670. (SCI源刊,影响因子0.770)6 邓培红,费俊杰,张军,黎拒难,多壁碳纳米管修饰碳糊电极阳极吸附伏安法测定痕量锆,科学通报,(2008) 53 (8): 888-892.7 Lifeng Tan, Hui Chao, Junjie Fei, Guojun Su, Sheng Zhang, Yue Xia, and Liangnian Ji, DNA-Binding and Photocleavage Behaviour of [Ru(bpy)2(MDPZ)]2+, Australian Journal of Chemistry, 2008, 61(5): 376-381. (SCI源刊,影响因子2.360)8 Li-Feng Tan, Hui Chao, Kang-Cheng Zhen, Jun-Jie Fei, Fang Wang, Yang-Fan Zhou and Liang-Nian Ji, Effects of the ancillary ligands of polypyridyl ruthenium(II) complexes on the DNA-binding and photocleavage behaviors, Polyhedron (2007) 26 (18): 5458-5468 (SCI源刊,影响因子1.756)9 Junjie Fei*, Yan Peng, Hongyan Tan, Xiaoming Chen, Jing Yang, Junan Li, Study on the electrochemical behavior and differential pulse voltammetric determination of rhein using a nanoparticle composite film modified electrode, Bioelectrochemistry (2007) 70 (2): 369-374 (SCI源刊,影响因子2.992) Full Text10 费俊杰*,谭红艳,陈小明, 黎拒难.锇联吡啶氧化还原聚合物膜修饰电极对肾上腺素的电催化氧化及安培检测,《催化学报》(2006) 27(07) 619-623. (SCIE源刊,影响因子0.596)11 Junjie Fei, Kangbing Wu, Fang Wang, Shengshui Hu. Glucose nanosensors based on redox polymer/glucose oxidase modified carbon fiber nanoelectrodes, Talanta,(2005) 65 (4): 918-924 (SCI,EI源刊,影响因子3.374)12 Junjie Fei*, Kangbing Wu, Lanhua Yi, and Junan Li. Low Potential Amperometric Determination of Ascorbic Acid at a Single-Wall Carbon Nanotubes-Dihexadecyl Hydrogen Phosphate Composite Film Modified Electrode, Bulletin of the Korean Chemical Society. (2005) 26 (9):1403-1409 (SCI源刊,影响因子 1.156)13 Junjie Fei, Shengshui Hu*. Osmium Redox Polymer Film Electrode and Its Electrocatalytic Properties towards the Oxidation of Epinephrine: Electrochemical Quartz-Crystal Microbalance and Voltametric Characterization, Russian Journal of Electrochemistry, (2005) 41 (12): 1296-1304 (SCI源刊,影响因子0.263) F14 Junjie Fei, Liming Luo, Shengshui Hu*, Zhiqiang Gao. Amperometric determination of ascorbic acid at a electrodeposited redox polymer film modified gold electrode, Electroanalysis (2004) 16 (4): 319-323 (SCI源刊,影响因子2.949)15 Junjie Fei, Kangbing Wu, Yunhua Wu, Shengshui Hu*. Electrocatalytical oxidation of uric acid at an electrodeposited redox polymer film modified gold electrode, Journal of Solid State Electrochemistry (2004) 8 (5): 316-321 (SCI源刊,影响因子1.535)16 Junjie Fei, Yunhua Wu, Xiaobo Ji, Jing Wang, Shengshui Hu*, and Zhiqiang Gao. An amperometric biosensor for glucose based on electrodeposited redox polymer/glucose oxidase film on a gold electrode, Analytical Sciences (2003) 19 (9): 1259-1263. (SCI源刊,影响因子1.508)17 费俊杰,黎拒难*,易芬云.槲皮素化学修饰碳糊电极吸附溶出伏安法测定痕量铅.《分析化学》(2001) 29(8)916-918 (SCI收录,影响因子0.513)18 Kangbing Wu, Junjie Fei, Shengshui Hu*. Simultaneous determination of dopamine and serotonin on a glassy carbon electrode coated with a film of carbon nanotubes Analytical Biochemistry, (2003) 318(1) 100-106. (SCI源刊,影响因子3.002)19 Kangbing Wu, Junjie Fei, Wen Bai, Shengshui Hu*. Direct electrochemistry of DNA, guanine and adenine at a nanostructured film-modified electrode, Analytical and Bioanalytical Chemistry (2003) 376 (2): 205–209. (SCI源刊,影响因子2.867)20 Yanyi Sun, Junjie Fei, Kangbing Wu, Shengshui Hu*. Simultaneous electrochemical determination of xanthine and uric acid at a nanoparticle film electrode, Analytical and Bioanalytical Chemistry (2003) 375 (4): 544–549. (SCI源刊,影响因子2.867)21 Fang Wang, Junjie Fei, Shengshui Hu*,The influence of cetyltrimethyl ammonium bromide on electrochemical properties of thyroxine reduction at carbon nanotubes modified electrode, Colloids and Surfaces B: Biointerfaces (2004) 39 (1-2): 91-101. (SCI源刊,影响因子2.109)22 Qiong He, Junjie Fei, Shengshui Hu*. Voltammetric method based on an ion-pairing reaction for the determination of trace amount of iodide at carbon-paste electrodes, Analytical Sciences (2003) 19 (5): 681-686. (SCI源刊,影响因子1.508)23 Shaofang Lu, Junjie Fei, Qiong He, Shengshui Hu*, Application of a multi-wall carbon nanotubes film coated electrode for the determination of bisphenol A Leached from plastic waste samples, Chemia Analityczna- Chemical Analysis (2004) 49 (5): 607-617. (SCI源刊,影响因子0.529)24 吕少仿,费俊杰*.头孢噻肟纳在多壁碳纳米管修饰电极上的电化学行为及分析应用.《武汉大学学报》(理学版)(2003) 49 (2)157-16125 费俊杰,王俊芬,黎拒难*,易芬云. 槲皮素修饰碳糊电极吸附溶出伏安法测定人血清中铜.《分析科学学报》 (2001) 17(5)375-37826 费俊杰,黎拒难*,易兵,易芬云. 测定人发中铜的桑色素修饰碳糊电极吸附溶出伏安法.《分析测试学报》(2001) 20(2)13-1627 费俊杰,黎拒难*,易芬云. 桑色素修饰碳糊电极吸附溶出伏安法测定人尿中痕量铅.《理化检验》 (化学分册) (2002) 38(4)166-16928 Fei Junjie, Sun Yanyi Hu Shengshui, Gao Zhiqiang*, Electrocatalysis at a thin multi-wall carbon nanotube film modified glassy carbon electrode, Technical Proceedings of the 2004 NSTI Nanotechnology Conference and Trade Show, Boston, MA, MAR 07-11, 2004, Volume 3, 260-263. NSTI NANOTECH 2004, VOL 3, TECHNICAL PROCEEDINGS : 260-263, 2004 (ISTP 收录)2023-07-23 06:58:211
同系物与同系差有何区别
一、同位素 isotope、核素 nuclide 1、元素,element,同一种原子形成一种元素; 2、原子,atom,同一种元素的所有原子, A、都是一样的。一样的意思,是指它们都含有相同的质子数,相同的电子数; B、同一种元素的原子,又分成好多种同位素; 不同的同位素的差别在于每个原子内的中子数不一样。 换句话说, A、只要原子内的质子数一样,就是同一种元素; B、同一种元素,根据原子的核内有中国种不同的中子数,就分成中国中同位素。 同位素,isotope,就是在周期表上在同一个位置,有同样多的质子、同样多 的电子,但是不一样多的中子,这些原子形成了同一种元 素的同位素。 所有的元素都有同位素。 最简单的氢,也有氕、氘、氚三种同位素; 稍微复杂一点点的 Helium 氦,有九种同位素。同位素 = isotope。 【核素】 只要核子数相同,而不管是什么元素的原子,它们在一起就属于同一种核数。 由于一种元素有几种同位素,就有几种核数,所以,很多人将两者完全混淆。 二、同素异形体 allotropy 1、是由同一种元素所构成的单质 pure element; 2、这些同种元素的原子不是混合在一起,而是形成不同的立体结构。 最典型的就是石墨跟金刚石(钻石),都是由碳形成,一个最软,一个最硬。 同素异形体的物理性质相差很大,譬如石墨跟金刚石的硬度之差最为典型。 再如石墨是导电的,但有方向性;而金刚石一般都是很好的绝缘体。但是, 蓝钻是半导体。 3、有同素异形体的元素,只有少数: 碳、氢、氧、磷、硫、硅、硼、硒、砷、铁、锡、锗、锑。 其中的碳是最有名的,有七种: Diamond、Lonsdaleite、Graphite、Carbyne、Amorphous carbon、 Fullerenes、Carbon nanotubes。 而 diamond、graphite 是典型中典型,任何课本、任何讲座都离不开它。 三、同分异构体 isomer、isomerism 1、是有机化学中,具有相同的分子式,空间排列的结构不一样的分子; 2、它们的碳键carbon bond 的连接法五花八门,可能是直线的,可能是环状的, 可能是立体的; 3、它们的化学性质,并不相同; 4、如果有相同的功能团 functional group,就会有相同的化学性质。 四、同系物 Homologous series,Homology 1、一系列的有机化合物,有共同的结构式,彼此之间相差一个原子团; 最典型的是烃 hydrocarbon,分为烷烃 alkane、烯烃 alkene、炔烃 alkyne。 它们的结构有共同的公式、通式,general formula。 2、同系物有典型的特征,就是功能团 functional group,如 -OH。 在无机化学中,—OH 称为氢氧根;在有机化学中,称为羟基。 在英文中,没有这么明显的不同名称。 在无机化学中,—OH 是hydroxide;在有机化学中,是 hydroxyl。 3、它们有相似的物理性质跟化学性质2023-07-23 06:58:461
陈宝安的代表奖项、课题、文章及专著
1. 2007年“白血病的耐药逆转研究”江苏省科技进步二等奖2.2006年“消化道恶性肿瘤患者外周血微转移检测及微转移基因芯片研制及其应用”江苏省科学技术进步奖三等奖3. 2006年“中西药结合增加血液系统肿瘤化疗敏感性的基础与临床研究”中国中西医结合学会科技奖三等奖4.2009 年“多种方法逆转白血病多药耐药的研究及应用”获教育部科技进步二等奖。5. 2011 年“基于纳米生物技术的肿瘤耐药识别与逆转的研究”获教育部科技进步二等奖。 1.王雪梅,张仁云,吕刚,吴春惠,李景源,高峰,程坚,陈宝安,付德刚,李小毛,关之群. 治疗白血病的靶向磁性纳米药物及制备方法. 专利号:ZL 2005 1 0040657.1。2.王雪梅,吴春惠,宋敏,李景源,张仁云,吴德洪,燕红,顾忠泽,陈宝安. 有机金属碳硼烷靶向纳米制剂的制备方法及制成的靶向制剂. 专利号: ZL 2006 1 0096423.3。 1. 国家自然科学基金面上项目:汉防已甲素和角罗西芬逆转白血病细胞多药耐药的机理研究(编号:39970832,研究年限:2000.11-2002.12)已结题2. 南京市重大课题:非清髓造血干细胞移植治疗白血病(编号:YQ0008,研究年限:2001-2004)已结题3. 江苏省卫生厅科技发展基金:生物疗法在慢粒ASCT体外净化作用(编号:H200344,研究年限:2003-2005)已结题4. 东南大学中大医院重大课题:非清髓造血干细胞移植治疗血液病(编号:2003YJ02,研究年限:2003-2005)已结题5. 高等学校博士学科点专项科研基金:共聚合汉防己甲素和化疗药物的磁性纳米四氧化三铁颗粒在逆转恶性血液病多药耐药中的机理研究(编号:20070286042,研究年限:2008-2010)已结题6. 国家自然基金面上项目:共聚合汉防己甲素和化疗药物的磁性纳米四氧化三铁颗粒在逆转恶性血液病多药耐药中的机理研究(编号:30740062,研究年限:2008-2009)已结题7. 国家自然基金面上项目:磁性纳米四氧化三铁颗粒共聚合柔红霉素和5-溴汉防己甲素逆转恶性血液病多药耐药的机理研究(编号:30872970,研究年限:2009-2011)已结题8. 国家高技术研究发展计划(863计划)子课题:急性白血病的治疗(研究年限:2009-2011)已结题9. 国家高技术研究发展计划(863计划)子课题:超灵敏纳米多孔生物传感器件的研究与开发(编号:32007AA022007,研究年限:2009-2011)已结题10. 国家重点基础研究发展计划(973计划)子课题:基于仿生分子识别的传感与成像方法研究及其系统设计(编号:2010CB732404,研究年限:2009-2015)在研11. 国家科技支撑计划课题(十一五)子课题:骨髓增生异常综合征的规范化诊断与治疗策略研究(编号:2008BAI61B02,研究年限:2008-2010)已结题12. 国家自然基金面上项目:化疗药和中药与转铁蛋白纳米载体的设计及逆转白血病耐药的机制研究(编号:81170492,研究年限:2012-2015)在研13. 国家高技术研究发展计划(863计划)子课题:针对生物标志物检测的低成本检测系统的研制(编号:2012AA022703,研究年限:2012-2016)在研14. 国家自然基金面上项目:血小板靶向载药系统的研制及其抗白血病效应的研究(编号:81370673,研究年限:2014-2017)在研15. 江苏省科技厅医学重点项目:江苏省复发和难治性白血病的规范化治疗(编号:BL2014078,研究年限:2014-2017)在研 1.CaiX, Cai X, Wang C, Chen BA*, Hua W, Shen Fet al. Antitumor efficacy of DMSA modified Fe3O4 magneticnanoparticles combined with arsenic trioxide and adriamycin in Raji cells. J Biomed Nanotech2014; 10(2): 251-261.2.ChangH, Wang X, Shiu KK, Zhu Y, Wang J, Li Q, Chen BA*et al. Layer-by-layer assembly of graphene, Au andpoly(toluidine blue O) films sensor for evaluation of oxidative stress of tumorcells elicited by hydrogen peroxide. Biosensors& Bioelectronics 2013; 41: 789-794.3.ChengJ, Cheng L, Chen BA*, Xia G, Gao C, Song Het al. Effect of magnetic nanoparticles of Fe3O4 and wogonin onthe reversal of multidrug resistance in K562/A02 cell line. Int J Nanomedicine2012; 7: 2843-2852.4.FangL, Chen BA,Liu S, Wang R, Hu S, Xia G, Chen BA*et al.Synergistic effect of a combination of nanoparticulate Fe3O4 and gambogic acidon phosphatidylinositol 3-kinase/Akt/Bad pathway of LOVO cells. Int JNanomedicine2012; 7: 4109-4118.5.JiangN, Zhu X, Zhang H, Wang X, Zhou X, Gu J, Chen BA* et al. The relationship between methylenetetrahydrofolatereductase polymorphism and hematological malignancy. Clin Lab2014; 60(5): 767-774.6.JinN, Malcherek G, Mani J, Zurleit R, Schmitt A, Chen BAet al. Suppression of cytomegalovirus-specific CD8(+)T cells by everolimus. Leuk Lymphoma 2014; 55(5): 1144-1150.7.LiK, Chen BA*,Xu L, Feng J, Xia G, Cheng Jet al.Reversal of multidrug resistance by cisplatin-loaded magnetic Fe3O4nanoparticles in A549/DDP lung cancer cells in vitro and in vivo. Int J Nanomedicine 2013; 8: 1867-1877.8.LiangG, Li J, Sun B, Li S, Lu L, Wang Y, Chen BA*et al. Deep sequencing reveals complex mechanisms ofmicroRNA deregulation in colorectal cancer. IntJ Oncology 2014; 45(2): 603-610.9.LuX, Zhu A, Cai X, Jia Z, Han W, Ma L, Chen BA*et al. Role of NKG2D in cytokine-induced killer cellsagainst multiple myeloma cells. CancerBio Therapy 2012; 13(8): 623-629.10.MouY, Hou Y, Chen BA*, Hua Z, Zhang Y, Xie Het al. In vivo migration of dendritic cells labeled with syntheticsuperparamagnetic iron oxide. Int J Nanomedicine 2011; 6: 2633-2640.11.RenY, Zhang H,Chen BA*, Cheng J, Cai X, Liu Ret al. Multifunctional magnetic Fe3O4 nanoparticles combined withchemotherapy and hyperthermia to overcome multidrug resistance. Int J Nanomedicine2012; 7: 2261-2269.12.SongG, Gu L, Li J, Tang Z, Liu H, Chen BA* et al. Serum microRNAexpression profiling predict response to R-CHOP treatment in diffuse large Bcell lymphoma patients. Ann Hematol 2014.e-pub ahead of print 2014/05/2713.WangC, Cai X, Chen BA*, He Z, Chen Z, Cen Jet al. Up-regulation of tissue inhibitor of metalloproteinase-2promotes SHI-1 cell invasion in nude mice. Leuk Lymphoma 2013; 54(12): 2707-2711.14.WangC, Zhang H, Chen Y, Shi F, Chen BA*. Gambogic acid-loaded magnetic Fe(3)O(4)nanoparticles inhibit Panc-1 pancreatic cancer cell proliferation and migrationby inactivating transcription factor ETS1. Int J Nanomedicine2012; 7: 781-787.15.Wang F, Zhang W, Guo L, Bao W,Jin N, Liu R, Chen BA*et al. Gambogic acid suppresses hypoxia-inducedhypoxia-inducible factor-1alpha /vascular endothelial growth factor expressionvia inhibiting phosphatidylinositol 3-kinase/Akt/mammalian target protein ofrapamycin pathway in multiple myeloma cells. Cancer Sci2014. e-pub ahead of print 2014/06/04.16.WangL, Zhang H, Chen BA*, Xia G, Wang S, Cheng Jet al. Effect of magnetic nanoparticleson apoptosis and cell cycle induced by wogonin in Raji cells. Int J Nanomedicine2012; 7: 789-798.17.WangX, Wang X, Gao S, Zheng Y, Tang M, ChenBA*. A solid-state electrochemiluminescencesensing platform for detection of catechol based on novel luminescent compositenanofibers. Talanta 2013; 107: 127-132.18.WenJ, Jiang S, Chen Z, Zhao W, Yi Y, Yang R, Chen BA* et al. Apoptosis selectively induced in BEL-7402 cells byfolic acid-modified magnetic nanoparticles combined with 100 Hz magnetic field.Int J Nanomedicine2014; 9: 2043-2050.19.XuP,Chen BA*,Feng J, Cheng L, Xia G, Li Yet al.Polymorphisms in XPC provide prognostic information in acute myeloid leukemia. IntJ Hematology 2012; 96(4): 450-460.20.XuP, Li J, Chen BA*, Wang X, Cai X, Jiang Het al. The real-time neurotoxicityanalysis of Fe3O4 nanoparticles combined with daunorubicin for rat brain invivo. JBiomed Nanotechnology 2012; 8(3): 417-423.21.XuP, Li J, Shi L, Selke M, Chen BA*, Wang X. Synergetic effect of functionalcadmium-tellurium quantum dots conjugated with gambogic acid for HepG2cell-labeling and proliferation inhibition. Int J Nanomedicine2013; 8: 3729-3736.22.XuY, Wang Y, Li XM, Huang Q, Chen W, Liu R, Chen BA*et al. Study on the release of fenofibrate nanosuspension invitro and its correlation with in situ intestinal and in vivo absorptionkinetics in rats. Drug Dev Indus Pharmacy2014; 40(7): 972-979.23.YangZ, Chen BA*,Pei X, Shangguan F. Multiplex analysis of tumor multidrug-resistance genesexpression with photonic suspension array. TheAnalyst 2012; 137(14): 3343-3348.24.ZhangH, Wang C, Chen BA*, Wang X. Daunorubicin-TiO2 nanocompositesas a smart pH-responsive drug delivery system. Int J Nanomedicine2012; 7: 235-242.25.ZhongY, Wu J, Chen BA*, Ma R, Cao H, Wang Zet al. Investigation and analysis of single nucleotidepolymorphisms in Janus kinase/signal transducer and activator of transcriptiongenes with leukemia. Leuk Lymphoma 2012; 53(6): 1216-1221.26. Zhang HJ, Chen BA*,Jiang H, Wang CL, Wang HP, Wang XM. A strategy for ZnO nanorod mediatedmulti-mode cancer treatment. Biomaterials. 2011; 32(7):1906-14.27. Chen BA*, Wu WW, WangXM. Magnetic Iron Oxide Nanoparticles for Tumor-targeted Therapy. Curr CancerDrug Targets 2011; 11(2):184-9.28. Zhang HJ, Jiang H, Sun FF, Wang HP, Zhao J, Chen BA*, Wang XM. Rapid diagnosis of multidrug resistance in cancerby electrochemical sensor based on carbon nanotubes-drug supramolecularnanocomposites. Biosens Bioelectron. 2011; 26(7):3361-6.29. Song M, Zhang RR, Dai YY, Gao F, Chi H, Lv G, Chen BA,* Wang XM. The in vitro inhibitionof multidrug resistance by combined nanoparticulate titanium dioxide and UV irradition.Biomaterials. 2006; 27(23):4230-8.30. Chen BA*, Yin L, ChengJ, Ding JH, Gao C, Sun YY, Zhao G, Wang J, Bao W, Xia GH, Gao F, Wang XM.Effect of D, L-threo-1-phenyl-2-decanoylamino-3-morpholino-1 -propanol andtetrandrine on the reversion of multidrug resistance in K562/A02 cells.Hematology. 2011; 16(1):24-30.31. Wu WW, Chen BA*, ChengJ, Wang J, Xu WL, Liu LJ, Xia GH, Wei H, Wang XM, Yang M, Yang L, Zhang Y, XuC, Li J. Biocompatibility of Fe3O4/DNR magnetic nanoparticles inthe treatmentof hematologic malignancies. Int J Nanomedicine. 2010; 5:1079-84.32. Wang J, Chen Y,Chen BA*,Ding JH, Xia GH, Gao C, Cheng J, Jin N, Zhou Y, Li XM, Tang M, Wang XM.Pharmacokinetic parameters and tissue distribution of magnetic Fe(3)O(4) nanoparticlesin mice. Int J Nanomedicine. 2010; 5:861-6.33. Chen BA*, Mao P, ChengJ, Gao F, Xia GH, Xu WL, Shen HL, Ding JH, Gao C, Sun Q, Chen W, Chen N, LiuLJ, Li XM, Wang XM. Reversal of multidrug resistance by magnetic Fe3O4nanoparticle copolymerizating daunorubicin and MDR1 shRNA expression vector inleukemia cells. Int J Nanomedicine. 2010; 5:437-4.34. Chen BA*, Jin N, WangJ, Ding JH, Gao C, Cheng J, Xia GH, Gao F, Zhou Y, Chen Y, Zhou G, Li XM, ZhangY, Tang M, Wang XM. The effect of magnetic nanoparticles of Fe(3)O(4) on immunefunction in normal ICR mice. Int J Nanomedicine. 2010; 5:593-9.35. Zhang HJ, Jiang H, Wang XM,Chen BA*. Reversion of multidrugresistance in tumor by biocompatible nanomaterials. Mini Rev Med Chem. 2010;10(8):737-45.36. Zhong YJ, Chen BA*,Feng JF, Cheng L, Li Y, Qian J, Ding JH, Gao F, Xia GH, Chen N, Lu Z. Theassociations of Janus kinase-2 (JAK2) A830G polymorphism and the treatment outcomesin patients with acute myeloid leukemia. Leuk Lymphoma. 2010; 51(6):1115-20.37. Zhu XL, Zhang HJ, Lin Y, Chen P, Min J, Wang Z, Xiao W, Chen BA*. Mechanisms of gambogicacid-induced apoptosis in non-small cell lung cancer cells in relation to transferrinreceptors. J Chemother. 2009; 21(6):666-72.38. Pei XP, Chen BA*, LiL, Gao F, Jiang Z. Multiplex tumor marker detection with new chemiluminescentimmunoassay based on silica colloidal crystal beads. Analyst. 2010; 135(1):177-81.39. Chen BA*, Liang YQ, WuWW, Cheng J, Xia GH, Gao F, Ding JH, Gao C, Shao Z, Li G, Chen W, Xu WL, SunXC, Liu LJ, Li XM, Wang XM. Synergistic effect of magnetic nanoparticles ofFe(3)O(4) with gambogic acid on apoptosis of K562 leukemia cells. Int J Nanomedicine.2009; 4:251-9.40. Cheng J, Wu WW, Chen BA*,Gao F, Xu WL, Gao C, Ding JH, Sun YY, Song HH, Bao W, Sun XC, Xu C, Chen W,Chen N, Liu LJ, Xia GH, Li XM, Wang XM. Effect of magnetic nanoparticles ofFe3O4 and 5-bromotetrandrine on reversal of multidrug resistance in K562/A02leukemic cells. Int J Nanomedicine. 2009; 4:209-16.41. Pei XP, Zhao Y, Zhao X, Xu H, Chen BA*, Gu ZZ. Multiplex chemiluminescent immunoassay based onsilica colloidal crystal beads. J N N. 2009; 9(11):6320-5.42. Sun N, Sun XC, Chen BA*,Cheng H, Feng JF, Cheng L, Lu ZH. MRP2 and GSTP1 polymorphisms and chemotherapyresponse in advanced non-small cell lung cancer. Cancer Chemoth Pharm. 2010;65(3):437-46.43. Li Y, Deng Z, Xuan H, Zhu J, Ding B, Liu X, Chen BA*. Prolonged chronic phase in chronic myelogenous leukemiaafter homoharringtonine therapy. Chin Med J (Engl). 2009;122(12):1413-7.44. Jiang Z, Chen BA*, XiaGH, Wu Q, Zhang Y, Hong T, Zhang W, Cheng J, Gao F, Liu LJ, Li XM, Wang XM. Thereversal effect of magnetic Fe3O4 nanoparticles loaded with cisplatin onSKOV3/DDP ovarian carcinoma cells. Int J Nanomedicine. 2009; 4:107-14.45. Chen BA*, Cheng J, WuYN, Gao F, Xu WL, Shen HL, Ding JH, Gao C, Sun Q, Sun XC, Cheng H, Li G, ChenW, Chen N, Liu LJ, Li XM, Wang XM. Reversal of multidrug resistance by magneticFe3O4 nanoparticle copolymerizating daunorubicin and 5-bromotetrandrine inxenograft nude-mice. Int J Nanomedicine. 2009; 4:73-8.46. Chen BA*, Cheng J,Shen MF, Gao F, Xu WL, Shen HL, Ding JH, Gao C, Sun Q, Sun XC, Cheng H, Li G,Chen W, Chen N, Liu LJ, Li XM, Wang XM. Magnetic nanoparticle of Fe3O4 and5-bromotetrandrin interact synergistically to induce apoptosis by daunorubicin inleukemia cells. Int J Nanomedicine. 2009; 4:65-71.47. Chen BA*, Dai YY, WangXM, Zhang R, Xu WL, Shen HL, Gao F, Sun Q, Deng X, Ding JH, Gao C, Sun Y, ChengJ, Wang J, Zhao G, Chen N. Synergistic effect of the combination of nanoparticulateFe3O4 and Au with daunomycin on K562/A02 cells. Int J Nanomedicine. 2008;3(3):343-50.48. Chen BA*, Sun Q, WangXM, Gao F, Dai YY, Yin Y, Ding JH, Gao C, Cheng J, Li JY, Sun XC, Chen N, XuWL, Shen HL, Liu D. Reversal in multidrug resistance by magnetic nanoparticleof Fe3O4 loaded with adriamycin and tetrandrine in K562/A02 leukemic cells. IntJ Nanomedicine. 2008; 3(2):277-86.2023-07-23 06:58:531
江建军的学习工作经历
2012/06-至今,华中科技大学,光学与电子信息学院,副院长,教授;2003/04-2012/06,华中科技大学,电子科学与技术系,副系主任,教授;2001/06-2003/03,华中科技大学,电子科学与技术系,教授;2000/03-2001/06,华中科技大学,电子科学与技术系,副教授。1991/09-1995/05,浙江大学材料科学与工程系,攻读博士学位。 1999/03-2000/02,荷兰赫尔辛基工业大学(HUT),高级访问学者,主要研究高性能氢化物半燃料电池研究;1998/09-1999/03,Technion以色列工学院(Technion-IIT),博士后,主要开展铁基电池用纳米材料研究;1997/10-1998/09,韩国先进技术研究院(KAIST),博士后,从事高性能镁基贮氢电极合金机械合金化制备研究; 2004年入选首批“教育部新世纪优秀人才计划” (批准号:NCET-04-0702),为湖北省杰出青年基金获得者。目前已完成国家自然科学基金项目3项,新世纪优秀人才基金,留学回国人员基金等。目前在研项目国家自然科学基金等。发表学术论文160余篇,其中SCI收录110余篇。近五年主持负责的重要研究项目:(1)国家基金科学基金2012-2015年,项目负责人(2)国家自然科学基金项目“纳米颗粒膜微波介电损耗调控机理研究”,2009-2011,项目负责人; 2013年面向群体创新学习共同体的课程教学范式和实践方法获得湖北省高等学校教学成果奖一等奖(排名第一);2013年华中科技大学教学质量一等奖(全校仅11门课程之一);2013年华中科技大学课程设计一等奖;2012年获得宝钢教育基金优秀教师奖;2010年湖北省级精品课程《计算材料学与材料设计基础》(排名第一);2009年理工科研究性教学的理论与实践获得高等学校教学成果奖省级一等奖和国家级二等奖(排名第三);2005年计算材料学与新材料设计跨学科互动式虚拟基地建设获得湖北省高等学校教学成果奖一等奖(排名第一);获得2009-2012年湖北省大学生成果奖一等奖、二等奖和三等奖等指导教师;获得2008-2013年期间分别获得一等奖,二等奖,三等奖等指导教师,湖北省优秀学士论文指导奖导师。 (1)专著或者教材[1] 江建军,刘继光.《LabVIEW程序设计教程》. 北京:电子工业出版社,49.3万字,2008年3月,ISBN 978-7-121-05935-3[2] 江建军,缪灵,梁培,马新国. 《计算材料学-设计实践方法》. 北京: 高等教育出版社,43.9万字,2010年2月,ISBN 978-7-04-026963-5[3] 江建军,孙彪. 《LabVIEW程序设计教程》(第二版). 北京:电子工业出版社,50万字,2012年2月,ISBN 978-7-121-15635-9(2)近年来代表性研究学术论文20151. Chi Chen, Kui Xu, Xiao Ji, Bao Zhang, Ling Miao* and Jianjun Jiang. Enhanced Electrochemical Performance by Facile Oxygen Vacancies from Lower Valence-State Doping for Ramsdellite-MnO2. J. Mater. Chem. A, 3:12461, 2015.2. Kui Xu, Xiao Ji, Chi Chen, Houzhao Wan, Ling Miao*, Jianjun Jiang. Electrochemical double layer near polar reduced graphene oxide electrode: Insights from molecular dynamic study. Electrochimica Acta, 166:142, 2015.3. Xiao Ji, Kui Xu, Chi Chen, Bao Zhang, Houzhao Wan, Yunjun Ruan, Ling Miao and Jianjun Jiang*. Different charge-storage mechanisms in Disulfide Vanadium and Vanadium Carbide Monolayer. J. Mater. Chem. A, 3:9909-9914, 2015.4. Mengyun Zhao, Xiaowei Yu, Qiao Wang, Peng Kong, Yun He, Ling Miao*, Jianjun Jiang. Novel Absorber Based on Pixelated Frequency Selective Surface Using Estimation of Distribution Algorithm. IEEE Antennas and Wireless Propagation Letters, 14: 1467, 2015.5. Xin Cong, Yiming Liao, Qiji Peng, Yidan Yang, Chuan Cheng, Wenqing Zhang, Peilin Fang, Chi Chen, Ling Miao*, and Jianjun Jiang. Contrastive band gap engineering of strained graphyne nanoribbon with armchair and zigzag edges. RSC Advances, 5:59344, 2015.6. Xin Cong, Chuan Cheng, Yiming Liao, Yifei Ye, Changxu Dong, He Sun, Xiao Ji, Wenqiang Zhang, Peilin Fang, Ling Miao* and Jianjun Jiang. Intrinsic charge storage capability of Transition Metal Dichalcogenides as Pseudocapacitor electrode, J Physical Chemistry C, 119:20864, 2015.7. Zhu Lv, Huiyu Mo, Chi Chen*, Xiao Ji, Kui Xu, Ling Miao , Jianjun Jiang. The Effective Adsorption and Decomposition of N2O on Al-decorated Graphene Oxide under Electric Field. RSC Advances, 5:18761-18766, 2015.8. Haichao Chen, Jianjun Jiang, Yuandong Zhao, Li Zhang, Danqing Guo, Dandan Xia. One-pot Synthesis of Porous Nickel Cobalt Sulphides: Tuning the Composition for Superior Pseudocapacitance. Journal of Materials Chemistry A, 2015, 3, 428–437.9. Haichao Chen, Jianjun Jiang, Li Zhang, Yuandong Zhao, Danqing Guo, Yunjun Ruan, Dandan Xia. One-Pot Fabrication of Layered α-Phase Nickel–Cobalt Hydroxides as Advanced Electrode Materials for Pseudocapacitors. ChemPlusChem, 2015, 80, 181–187.10. Dandan Xia, Haichao Chen, Jianjun Jiang, Li Zhang, Yuandong Zhao, Danqing Guo, Jingwen Yu. Facilely Synthesized α Phase Nickel–Cobalt Bimetallic Hydroxides: Tuning the Composition for High Pseudocapacitance. Electrochimica Acta, 2015, 156, 108–114.11. Houzhao Wan, Jia Liu, Yunjun Ruan, Lin Lv, Lu Peng, Xiao Ji, Ling Miao, and Jianjun Jiang,Hierarchical Configuration of NiCo2S4 Nanotube@Ni–Mn Layered Double Hydroxide Arrays/Three-Dimensional Graphene Sponge as Electrode Materials for High-Capacitance Supercapacitors,ACS Appl. Mater. Interfaces, 2015, 7 (29),15840–15847.12. Houzhao Wan, Lin Lv, Lu Peng, Yunjun Ruan, Jia Liu, Xiao Ji, Ling Miao, Jianjun Jiang,Hollow spiny shell of porous Ni–Mn oxides: A facile synthesis route and their application as electrode in supercapacitors,Journal of Power Sources, 2015,286(15), 66–7213. Yunjun Ruan, Jianjun Jiang*, Houzhao Wan, Xiao Ji, Ling Miao, Lu Peng, Bao Zhang, Lin Lv, Jia Liu, Rapid self-assembly of porous square rod-like nickel persulfide via a facile solution method for high-performance supercapacitors, Journal of Power Sources, 2016, 301, 122-130.14. Lu Peng, Xiao Ji, Houzhao Wan, Yunjun Ruan, Kui Xu, Chi Chen, Ling Miao,Jianjun Jiang*. Nickel Sulfide Nanoparticles Synthesized by Microwave-assisted Method as Promising Supercapacitor Electrodes: An Experimental and Computational Study. Electrochimica Acta,2015, 182, 361-367.15. Haibing Xu, Shaowei Bie*, Jianjun Jiang, Dong Wan, Jie Zhou and Yongshun Xu. Broadening bandwidth of the composite radar absorption material involving a frequency selective surface. JOURNAL OF ELECTROMAGNETIC WAVES AND APPLICATIONS. 2015, 29, 60-68.16. Haibing Xu, Shaowei Bie*, Yongshun Xu, Wei Yuan, Qian Chen and Jianjun Jiang. Broad bandwidth of thin composite radar absorbing structures embedded with frequency selective surfaces. Composites Part A: Applied Science and Manufacturing. 201517. Haibing Xu, Shaowei Bie*, Jianjun Jiang, Wei Yuan, Qian Chen and Yongshun Xu. Electromagnetic and microwave absorbing properties of the composites containing flaky FeSiAl powders mixed with MnO2in 1-18GHz. Journal of Magnetism and Magnetic Materials. 2015.18. Yongshun Xu, Wei Yuan, Shaowei Bie*,Haibing Xu, Qian Chen & Jianjun Jiang.Broadband microwave absorption property of a thin metamaterial containing patterned magnetic sheet.JOURNAL OF ELECTROMAGNETIC WAVES AND APPLICATIONS,2015.19. Wenhua. Xu, Yun. He, Peng. Kong, Jialin. Li, Haibing. Xu, Ling. Miao, Shaowei. Bie and Jianjun. Jiang. An ultra-thin broadband active frequency selective surface absorber for ultrahigh-frequency applications. J APPL PHYS. 2015.20. Zhimi Hu, Xu Xiao,Chi Chen,Tianqi Li, Liang Huang, Chuanfang Zhang, Jun Su, Ling Miao, Jianjun Jiang, Yanrong Zhang and Jun Zhou*. Al-doped α-MnO2for high mass-loading pseudocapacitor with excellent cycling stability.Nano Energy, 2015, 11, 226–234.21. C.D. Wang, Y.S. Li, J.J. Jiang, W.-H. Chiang, Controllable tailoring graphene nanoribbons with tunable surface functionalities: an effective strategy towards high performance lithium-ion batteries,ACS Appl. Mater. Interf.,2015, 7,17441–17449.22. L. Zhang, H. Xia, C. Qiu, J. J. Jiang, S. W. Bie, Effect of Carrier Gas Flow Rate on In2O3 Nanostructure Morphology and Growth Mechanism, Journal of Nano Research, Vol. 31, pp.117-128, Apr. 201520141. Chen Haichao, Jiang Jianjun, Zhang Li, Qi Tong, Xia Dandan, Wan Houzhao. Facilely synthesized porous NiCo2O4 flowerlike nanostructure for high-rate supercapacitors. Journal of Power Sources ( IF=5.211 ),248:28, 2014.2. Chen Haichao, Jiang Jianjun, Zhang Li, Xia Dandan, Zhao Yuandong, Guo Danqing, Qi Tong, Wan Houzhao. In situ growth of NiCo2S4 nanotube arrays on Ni foam for supercapacitors: Maximizing utilization efficiency at high mass loading to achieve ultrahigh areal pseudocapacitance. Journal of Power Sources ( IF=5.211 ),254:249, 2014.3. Chen Chi, Xu Kui, Ji Xiao, Miao Ling, Jiang Jianjun. Enhanced adsorption of acidic gases (CO2, NO2 and SO2) on light metal decorated graphene oxide. Phys. Chem. Chem. Phys. ( IF= 4.198), 2014, 16:110314. Li Yutao, Wang Xiaojie, Shi Wenhao, Yan Zeyu, Zhao Chengbo, Chen Chi, Miao Ling, Jiang Jianjun. Enhanced and adjustable adsorption of organo-functional groups on Li decorated carbon nanotubes: A first principle study. J Applied Physics, 116:084308, 20145. Zeyu Yan, Lang Wang, Julong Cheng, Libei Huang, Chao Zhu, Chi Chen, Ling Miao, and Jianjun Jiang. Lithium-decorated oxidized graphyne for hydrogen storage by first principles study. J Applied Physics, 116: 174304, 20146. Yu Jingwen, Wan Houzhao, Jiang Jianjun, Ruan Yunjun, Miao Ling. Activation Mechanism Study of Dandelion-Like Co9S8 Nanotubes in Supercapacitors.. Journal of The Electrochemical Society ( IF= 2.859 ),161:A996, 2014.7. Wan Hou-Zhao, Jiang Jian-Jun,Yu Jing-Wen, Ruan Yun-Jun,Peng Lu, Zhang Li, Chen Hai-Chao, Bie Shao-Wei. Cobalt sulfide nanotube arrays grown on FTO and graphene membranes for high-performance supercapacitor application.. Applied Surface Science, 311: 793–798, 2014. IF=2.5388. Wan Houzhao, Jiang Jianjun, Ruan Yunjun, Yu Jingwen, Zhang Li, Chen Haichao, Miao Ling, Bie Shaowei. Direct Formation of Hedgehog‐Like Hollow Ni‐Mn Oxides and Sulfides for Supercapacitor Electrodes. Particle & Particle Systems Characterization, 31: 857–862, 20149. Peng Kong, XiaoWei Yu, ZhengYang Liu, Kai Zhou, Yun He, Ling Miao, and JianJun Jiang. A novel tunable frequency selective surface absorber with dual-DOF for broadband applications. Optics Express, 2014, 22(24): 30217–30224. IF=3.52510. Zhang Wuqiang, Bie Shaowei, Chen Haichao, Lu Yao, Jiang Jianjun Electromagnetic and microwave absorption properties of carbonyl iron/MnO2 composite. Journal of Magnetism and Magnetic Materials ( IF=2.002 ),358:1, 2014.11. Haibing Xu, Shaowei Bie, Jianjun Jiang, Dong Wan, Jie Zhoua &Yongshun Xu Broadening bandwidth of the composite radar absorption material involving a frequency selective surface. Journal of Electromagnetic Waves and Applications,201412. Li Chenyang, Miao Ling, Tan Xiaojian, Han Mengdi, Jiang Jianjun. Thermal Conductivity of Graphene Nanoribbons with Regular Isotopic Modification. . Journal of Computational and Theoretical Nanoscience, 11:348, 2014.13. Peng Kong, Xiao -Wei Yu, Ling Miao, and Jian-Jun Jiang . Switchable Frequency Selective Surfaces Absorber/Reflector for Wideband Applications . In Ultra-WideBand (ICUWB), 2014 IEEE International Conference on. IEEE. Sep., 2014. Paris, France.14. 徐永顺, 别少伟, 江建军, 徐海兵, 万东, and 周杰 含螺旋单元频率选择表面的宽频带强吸收复合吸波体. 物理学报, pp. 245-250, 2014-10-23 2014Prof.& Dr.Jianjun JiangVice Dean of SOEI,SchoolofOpticalandElectronicInformation(SOEI)Director of IEI,Intelligent Electronics Institute (IEI)Director of CCMS,Center for Computational Materials Science and Computer Measurement Simulation (CCMS)2023-07-23 06:59:071
杨坤(浙江大学教授)详细资料大全
杨坤 (1975.11-),男,博士、教授、博导。 基本介绍 中文名 :杨坤 国籍 :中国 民族 :汉 出生地 :中国 出生日期 :1975年11月 职业 :教师 学历 :博士 部 门 :环境污染控制技术研究所 导 师 :硕导 人物经历,研究方向,主要贡献,获奖情况, 人物经历 1999年6月于浙江大学环境科学系获学士学位;2004年6月于浙江大学环境科学系获博士学位。2004年9月晋升为讲师。2005年5月至2006年5月在美国麻州大学进行博士后研究工作。2006年12月晋升为副教授。2008年4月至2008年12月在美国麻州大学进行访问研究。主要从事环境纳米材料研制、人造纳米材料的环境与人体健康影响、有毒有害物质在环境中的归宿和迁移转化等方面研究工作。 研究方向 环境污染化学、污染控制化学。 主要贡献 至今,已在《Chem. Rev.》、《Environ. Sci. Technol.》、《Water Res.》、《Environ. Pollut.》等国内外著名学术刊物上发表论文54篇,其中SCI收录论文43篇(37篇IF>3.0,17篇IF>5.0),4篇论文入选Web of Science近10年“Highly Cited Papers”论文,SCI论文引文数列ESI环境/生态领域前1%作者,发表的SCI论文单篇最高SCI引用201次;获4项国家发明专利授权;参加编写出版《Handbook of Soil Sciences》、《环境化学》等3本专著/教材。主持承担国家自然科学基金(面上和重点项目)、国家863计画重点项目课题、国家支撑计画项目课题、浙江省自然科学基金等项目。 [1] Kun Yang, Baoshan Xing*. Adsorption of organic compounds by carbon nanomaterials in aqueous phase: Polanyi theory and its application. Chem. Rev. 2010, 110(10),5989-6008 . [2] Wenhao Wu, Wei Chen, Daohui Lin, Kun Yang*. Influence of Surface Oxidation of Multiwalled Carbon Nanotubes on the Adsorption Affinity and Capacity of Polar and Nonpolar Organic Compounds in Aqueous Phase. Environ. Sci. Technol., 2012, 46 (10), 5446–5454. [3] Kun Yang*, Qingfeng Jing, Wenhao Wu, Lizhong Zhu, Baoshan Xing. Adsorption and conformation of a cationic surfactant on single-walled carbon nanotubes and their influence on naphthalene sorption. Environ.Sci.Technol. 2010, 44(2), 681-687. [4] Kun Yang*, Wenhao Wu, Qingfeng Jing, Wei Jiang, Baoshan Xing. Competitive adsorption of naphthalene with 2,4-dichlorophenol and 4-chloroaniline on multiwalled carbon nanotubes. Environ.Sci.Technol. 2010, 44(8), 3021-3027. [5] Kun Yang, Baoshan Xing*. Sorption of Phenanthrene by Humic Acid-coated Nanosized TiO2 and ZnO. Environ.Sci.Technol. 2009, 43,1845-1851. [6] Kun Yang*, Wenhao Wu, Qingfeng Jing, Lizhong Zhu. Aqueous adsorption of aniline, phenol and their substitutes by multi-walled carbon nanotubes. Environ. Sci. Technol. 2008, 42, 7931-7936. [7] Kun Yang, Lizhong Zhu*, Baoshan Xing. Enhanced soil washing of phenanthrene by the mixed solutions of TX100 and SDBS. Environ. Sci. Technol. 2006, 40, 4274-4280. [8] Kun Yang, Lizhong Zhu, Baoshan Xing*. Adsorption of polycyclic aromatic hydrocarbons by carbon nanomaterials. Environ. Sci. Technol. 2006, 40, 1855-1861. [9] Kun Yang, Xilong Wang, Lizhong Zhu, Baoshan Xing*. Competitive sorption of polycyclic aromatic hydrocarbons on carbon nanotubes. Environ. Sci. Technol. 2006, 40, 5804-5810. [10] Kun Yang, Daohui Lin, Baoshan Xing*. Interactions of Humic Acid with Nanosized Inorganic Oxides. Langmuir 2009, 25,3571-3576. [11] Kun Yang, Baoshan Xing*. Adsorption of Fulvic Acid by Carbon Nanotubes from Water. Environ.Pollut. 2009,157, 1095-1100. [12] Kun Yang, Baoshan Xing*. Desorption of polycyclic aromatic hydrocarbons from carbon nanomaterials in water. Environ.Pollut. 2007, 145, 529-537 [13] Kun Yang, Lizhong Zhu*, Baoshan Xing. Sorption of sodium dodecylbenzene sulfonate by montmorillonite. Environ.Pollut. 2007, 145, 571-576. [14] Kun Yang, Baoshan Xing. Soil Physicochemical and Biological Interfacial Processes Governing the Fate of Anthropogenic Organic Pollutants. In: Handbook of Soil Sciences, Second Edition, Panming Huang (eds.), CRC, pp 4103-4198, USA, 2010. [15] 杨坤, 水环境化学. In: 环境化学(十二五规划教材), 朱利中主编, 高等教育出版社, 2010. 获奖情况 入选教育部“新世纪优秀人才计画项目”,获浙江省自然科学杰出青年基金、“全国百篇优秀博士论文”提名奖和“Scopus 未来科学之星”环境科学领域银奖。 2004年获浙江省科学技术二等奖(第6获奖人);2007年获教育部自然科学二等奖(第2获奖人);2010年获浙江省科学技术一等奖(第3获奖人);2012年获教育部科技进步一等奖(第6获奖人)。指导1位博士生获教育部学术新人奖,指导本科生承担“新苗人才计画项目”、“浙江省大学生科技创新项目”、SRTP等项目并获09年浙江省“挑战杯”二等奖和全国环境化学会议“优秀研究生论文奖”。获2010年“浙江大学优秀研究生德育导师”称号。 [1] 雷乐成、杨坤、朱利中、周明华、张兴旺、汪大翬,有毒有害难降解有机废水控制技术原理及套用研究 2007年教育部自然科学二等奖 [2] 朱利中、陈宝梁、沈红心、王静、沈学优、杨坤、高彦征、陈曙光,地面水有毒有害有机物的污染现状及风险,2004年 浙江省科技进步二等奖 [3] 杨坤,表面活性剂对有机污染物在土壤/沉积物上吸附行为的调控机制,2007年 “全国百篇优秀博士论文”提名奖2023-07-23 06:59:191
polydimethylsiloxane是什么意思
poly dimethylsiloxane词典结果:poly dimethylsiloxane聚二甲基硅氧烷poly[英][u02c8pu0252li][美][u02c8pɑ:li]n.工艺学校; 聚酯纤维; abbr.聚乙烯(全称polyethylene); 复数:polys以上结果来自金山词霸例句:1.So the labor usage and further processing of poly has gone down tremendously. 因此,劳动力使用和聚深加工已经少了很多。2023-07-23 06:59:271
毛兰群的代表性论文
1. L. Su, F. Gao, L. Mao*Electrochemical Properties of Carbon Nanotube (CNT) Film Electrodes Prepared by Controllable Adsorption of CNTs onto Alkanethiol Monolayer Self-Assembled on Gold Electrodes.Anal. Chem. 2006, 78, 2651-2657.2. L. Su, L. Mao*Gold Nanoparticle/Alkanedithiol Conductive Films Self-Assembled onto Gold Electrode: Electrochemistry and Electroanalytical Application for Voltammetric Determination of Trace Amount of Catechol.Talanta in press.3. W. Zheng, Q. Li, L. Su, Y. Yan, L. Mao*Direct Electrochemistry of Multi-Copper Oxidases at Carbon Nanotubes Noncovalently Functionalized with Cellulose Derivatives.Electroanalysis 2006, 6, 587-594.4. M. Zhang, L. Su, L. Mao*A Strategy through Supramolecular surfactant functionalization of Carbon Nanotubes for Layer-by-Layer Assembly of CNT Multilayer Film and Fabrication of Gold Nanoparticle CNT Hybrid.Carbon 2006, 44, 276-283.5. K. Gong, X. Zhu, R. Zhao, S. Xiong, L. Mao,* C. Chen*.Rational Attachment of Synthetic Triptycene Orthoquinone onto Carbon Nanotubes for Electrocatalysis and Sensitive Detection of Thiols.Anal. Chem. 2005, 77, 8158 - 8165.6. M. Zhang, K. Liu, K. Gong, L. Su, Y. Chen, L. Mao*.Continuous On-line Monitoring of Extracellular Ascorbate Depletion in the Rat Striatum Induced by Global Ischemia with Carbon Nanotube-Modified Glassy Carbon Electrode Integrated into A Thin-Layer Radial Flow Cell.Anal. Chem. 2005, 77, 6234 - 6242.7. Y. Yan, M. Zhang, K. Gong, L. Su, Z. Guo, L. Mao*.Adsorption of Methylene Blue Dye onto Carbon Nanotubes: A Route to Electrochemically Functional Nanostructure and Its Layer-by-Layer Assembled Nanocomposite.Chem. Mater. 2005, 17, 3457-3463.8. P. Yu, Y. Lin, L. Xiang, L. Su, J. Zhang, L. Mao*.Molecular Films of Water-Miscible Ionic Liquids Formed onto Glassy Carbon Electrode: Characterization and Electrochemical Applications.Langmuir 2005, 21, 9000-9006.9. Y. Yan, W. Zheng, M. Zhang, L. Wang, L. Su, L. Mao*Bioelectrochemically Functional Nanohybrids through Co-assembling of Proteins and Surfactants onto Carbon Nanotubes: Facilitated Electron Transfer of Assembled Proteins with Enhanced Faradic Response.Langmuir 2005, 21, 6560-6566.10. M. Zhang, L. Mao*.Enzyme-Based Amperometric Biosensors for Continuous and On-line Monitoring of Cerebral Extracellular Microdialysate (A Review).Frontier in Bioscience 2005, 10, 345-352.11. K. Gong, Y. Yan, M. Zhang, L. Su, L. Mao*.Electrochemistry and Electroanalytical Applications of Carbon Nanotubes: A Review.Anal. Sci. 2005, 21, 1383-1393.12. M. Zhang, K. Gong, H. Zhang, L. MaoElectrostatic Layer-by-Layer Assembled Carbon Nanotubes for Selective Determination of Dopamine in The Presence of Ascorbic Acid.Biosens. Bioelectron. 2005, 20, 1270-1276.13. K. Gong, M. Zhang, Y. Yan, L. Su, L. Mao,* S. Xiong, Y. Chen.Sol-Gel-Derived Ceramic-Carbon Nanotube Nanocomposite Electrodes: Tunable Electrode Dimension and Potential Electrochemical Applications.Anal. Chem. 2004, 76, 6500-6505.14. M. Zhang, Y. Yan, K. Gong, L. Mao,* Z. Guo, Y. Chen.Electrostatic Layer-by-Layer Assembling of Carbon Nanotube Multilayer Film and Its Electro-Catalytic Activity for O2 reduction.Langmuir 2004, 20, 8781-8785.15. K. Gong, Y. Dong, S. Xiong, Y. Chen, L. MaoNovel Electrochemical Method for Sensitive Determination of Homocysteine with Carbon Nanotube-Based Electrodes.Biosens. Bioelectron. 2004, 20 253-259.2023-07-23 06:59:341
秦禄昌的主要论著
1. L.-C. Qin, X. Zhao, K. Hirahara, Y. Ando and S. Iijima,Electron microscopic imaging and contrast of smallest carbon nanotubes , Chemical Physics Letters 349, 389 (2001).2. J. Tang, L.-C. Qin, A. Matsushita, Y. Takano, K. Togano, H. Kito and H. Ihara, Lattice parameter and Tc dependence of sintered MgB2 superconductor on hydrostatic pressure , Physical Review B 64, 132509 (2001).3. M.J. Lopez, A. Rubio, J.A. Alonso, L.-C. Qin and S. Iijima, New polygonized phase of single wall carbon nanotube bundles , Physical Review Letters 86, 3056 (2001).4. L.-C. Qin, X. Zhao, K. Hirahara, Y. Miyamoto, Y. Ando and S. Iijima, The smallest carbon nanotube , Nature 408, 50 (2000).5. J. Tang, L.-C. Qin, T. Sasaki, M. Yudasaka, A. Matsushita and S. Iijima ,Compressibility and polygonization of single-walled carbon nanotubes under hydrostatic pressure, Physical Review Letters 85, 1887 (2000).6. L.C. Qin, Helical diffraction from tubular structures, Materials Characterization 44, 407 (2000).7. L.C. Qin, Measuring the true helicity of carbon nanotubes, Chemical Physics Letters 297, 23 (1998).8. L.C. Qin, D. Zhou, D.M. Gruen and A.R. Krauss, Growing carbon nanotubes by microwave plasma-enhanced chemical vapor deposition, Applied Physics Letters 72, 3437 (1998).9. L.C. Qin, D. Zhou, A.R. Krauss and D.M. Gruen, TEM characterization of nanodiamond thin films , NanoStructured Materials 10, 649 (1998).10. L.C. Qin and S. Iijima, Structure and formation of raft-like bundles of single-walled helical carbon nanotubes produced by laser evaporation , Chemical Physics Letters 269, 65 (1997).11. L.C. Qin, T. Ichihashi and , On the measurement of helicity of carbon nanotubes , Ultramicroscopy 67, 181 (1997).12. L.C. Qin, S. Iijima, H. Kitaura, Y. Maniwa, S. Suzuki and Y. Achiba,Helicity and packing of single-walled carbon nanotubes studied by electron nanodiffraction ,Chemical Physics Letters 268, 101 (1997).13. L.C. Qin and S. Iijima,Onion-like graphitic particles produced from diamond , Chemical Physics Letters 262, 252 (1996).14. L.C. Qin and L.W. Hobbs, Energy-filtered electron diffraction study of vitreous and amorphized silicas , Journal of Non-Crystalline Solids 192&193, 456 (1995).15. L.C. Qin, Electron diffraction from cylindrical nanotubes ,Journal of Materials Research 9, 2450 (1994).Book Chapters16. L.-C. Qin: Electron Amorphography; in Progress in Transmission Electron Microscopy 1, Concepts and Techniques, Springer Series in Surface Sciences Vol. 38, Eds. X.F. Zhang and Z. Zhang, (Springer-Verlag / TUP, 2001).17. L.-C. Qin: Determining the Helicity of Carbon Nanotubes by Electron Diffraction; in Progress in Transmission Electron Microscopy 2, Applications in Materials Science, Springer Series in Surface Sciences Vol. 39, Eds. X.F. Zhang and Z. Zhang, (Springer-Verlag / TUP, 2001).2023-07-23 06:59:471
康振辉的学术论文
1. H. T. Li, X. D. He, Z. H. Kang*, H. Huang, Y. Liu*, J. L. Liu, S. Y. Lian, C. H. A. Tsang, X. B. Yang, S. T. Lee, “Water-soluble fluorescent carbon quantum dots and photocatalyst design”, Angewandte Chemie International Edition 2010, 49, 4430.2. Y. Wei, Q. G. Zhang, Y. Liu*, X. R. Li, S. Y. Lian, Z. H. Kang*, “Physicochemical Property Estimation of an Ionic Liquid Based on Glutamic Acid BMIGlu”, Journal of Chemical & Engineering Data, 2010, DOI: 10.1021/je900865y.3. C. H. A. Tsang, Y. Liu, Z. H. Kang*, D. D. D. Ma, N. B. Wong*, S. T. Lee*, “Metal (Cu, Au)-modified silicon nanowires for high-selectivity solvent-free hydrocarbon oxidation in air”, Chemical Communications 2009, 39, 5829.4. Z. H. Kang*, Y. Liu, C. H. A. Tsang, D. D. D. Ma, X. Fan, N. B. Wong*, S. T. Lee*, “Water-soluble silicon quantum dots with fine wavelength-tunable photoluminescence”, Advanced Materials 2009, 21, 661.5. Z. H. Kang*, Y. Liu, C. H. A. Tsang, D. D. D. Ma, E. B. Wang, S. T. Lee*, “Heteropolyacid-assisted fabrication of carbon nanostructures under ambient conditions”, Chemical Communications 2009, 4, 413.6. Z. H. Kang, C. H. A. Tsang, N. B. Wong*, S. T. Lee*, “Nanomaterials separation by an ultrasonic-assisted phase transfer method”, Chemical Physics Letters 2008, 455, 252.7. Z. H. Kang, C. H. A. Tsang, Z. D. Zhang, M. L. Zhang, N. B. Wong*, J. A. Zapien, Y. Y. Shan, S. T. Lee*, “A polyoxometalate-assisted electrochemical method for silicon nanostructures preparation: From quantum dots to nanowires”, Journal of the American Chemical Society 2007, 129, 5326.8. Z. H. Kang, C. H. A. Tsang, N. B. Wong*, Z. D. Zhang, S. T. Lee*, “Silicon Quantum Dots: A General Photocatalyst for Reduction, Decomposition, and Selective Oxidation Reactions”, Journal of the American Chemical Society 2007, 129, 12090.9. Z. H. Kang, E. B. Wang*, B. D. Mao, Z. M. Su*, L. Gao, S. Y. Lian, L. Xu, “Controllable fabrication of carbon nanotube and nanobelt with a polyoxometalate-assisted mild hydrothermal process”, Journal of the American Chemical Society 2005, 127, 6534.10. Z. H. Kang, E. B. Wang*, L. Gao, S. Y. Lian, M. Jiang, C. W. Hu, L. Xu, “One-step water-assisted synthesis of high-quality carbon nanotubes directly from graphite”, Journal of the American Chemical Society 2003, 125, 13652. Highlighted in Science, 2003, 302, 951; Current Science, 2004, 86, 256.2023-07-23 07:00:131
利路修登上pitchfork首页,凭借的是什么?
凭借的是他的实力和天赋,而且他的热度也非常的高,而且他对待人生的态度也得到了很多人们的支持,而且他的颜值也非常的高。2023-07-23 07:00:384
现代英语
现代英语该溜子是city walk旷工是gap day太阳晒屁股起来往嘴里塞巴的是brunch见色起意是crush爱吃吃不吃滚是 omakase2023-07-23 07:00:391
仲根霞的主要作品
美少女H(1998年)美少女H2(1998年)ナオミ(1999年)サイコメトラーEIJI2 第5话(1999年)天才てれびくんMAXYASHA-夜叉-(2000年)土曜ワイド剧场『相棒2u30fb警视庁ふたりだけの特命系』(2001年)感动ファクトリーu30fbすぽると! 土曜日(2003年)NHK教育テレビ フランス语会话(2002年 - 2003年)土曜スタジオパーク相棒前传Pre-season02 今宫典子 FMシアター「迷走ランナー」(2003年3月1日、NHK FM)ヤングパーク(2004年4月3日 - 2005年3月26日、MBSラジオ) 八月の幻(2002年)GUN CRAZY 3:反逆者の狂诗曲(2003年)ほんとうにあった怖い话 怨霊 剧场版(2004年)リディック(美国电影,日语版配音)(2004年)夏の思い出(2006年12月) D-Splash! (2000年)G-tasteu30fbスペシャル版 VOL.1:ドラマ版(2001年)G-tasteu30fb仲根かすみ:イメージビデオ(2001年)夏を探して(2001年)ラストu30fbアライブ(2001年)もういちど逢いたい(2002年)ハタチの想い(2002年)仲根かすみin尾道(2002年)圣アリス学园u30fb水着アタックでビーチを救え!(2002年)夏とかすみと太阳と…(2002年)仲根かすみのわんわんマニュアル(2002年)Chemin シュマン(2002年)La mer ~メイキングオブu30fb八月の幻~(2002年)DVDオリジナルアニメ「フロム I”s アイズ」(前编)(2002年)WPB-net DVD LIBRARY digital プレイボーイVol.2 仲根かすみ(2002年)DVDオリジナルアニメ「フロム I”s アイズ」(后编)(2003年)S"il vous plaît(2003年)PASSION(2003年)NHK外国语讲座 新スタンダード40すぐ使える基本表现「フランス语会话」(2003年)夏の终わりに(2003年)仲根かすみ大図鉴(2003年)WPB-net REMIX DVD 仲根かすみ「SLOW LIFE,SWEET LOVE」(2004年)予感 ~face~(2004年)仲根かすみ MEMORIES BOX「MERCI!」(2004年)Unplugged(2004年)VINTAGE 19+20+21(2004年)DVD+フォトブック夏の思い出(2005年) 仲根かすみ主演 八月の幻 フォトu30fbストーリーu30fbブック(2002年まるごと仲根かすみu30fbスケジュールブック(2003年) 17/あの夏。(1999年)18/Mi Pasión(2000年)花霞み(2001年)20/Vas-y!(2002年)S"il vous plaît(2003年)かすみ(2003年)À LA MER 海へ(2003年)KASUMI-X(2004年)UNPLUGGED(2004年)SHIZUKU 雫(2005年)Quietdays2023-07-23 07:00:481
兰州财经大学研究生分数线是多少?
随着时代的发展和进步,越来越多的在职人员选择就读在职研究生来提升自己的能力,于是就有不少考生想知道兰州财经大学研究生分数线是多少。在职研究生分数线就是参加统考的考生在初试的时候达到院校划定的分数线才能进入复试的标准,考生可以提前有所了解。兰州财经大学研究生分数线执行的国家线,是工商管理175.44.88;工程264.37.56,考生可以作为参考。非全日制研究生需要参加全国统考,经过初试复试后方可入学,在职研究生报考条件是:1、国家承认学历的应届本科毕业生(须取得国家承认的本科毕业证书。含普通高校、成人高校、普通高校举办的成人高等学历教育应届本科毕业生,及自学考试和网络教育届时可毕业本科生)。2、具有国家承认的大学本科毕业学历的人员。3、获得国家承认的高职高专学历后满2年或2年以上,达到与大学本科毕业生同等学力,且符合我校根据培养目标对考生提出的具体业务要求的人员;4、国家承认学历的本科结业生,按本科毕业生同等学力身份报考。5、已获硕士、博士学位的人员。管理类专业还会要求考生的工作年限。在职人员也可以选择同等学力申硕企业管理、财务管理在职研究生等进行学习,同等学力申硕免试入学,一般大专及以上学历就可以报名学习,完成学业后可以获得结业证,满足本科学历且学士学位满三年的学员可以参加申硕考试申请硕士学位。考研政策不清晰?同等学力在职申硕有困惑?院校专业不好选?点击底部官网,有专业老师为你答疑解惑,211/985名校研究生硕士/博士开放网申报名中:https://www.87dh.com/yjs2/2023-07-23 07:00:531
vhdl语言问题Error (10482): VHDL error at dch3.vhd(16): object "m" is used but not declared
begin U0: 前面加上这句: SIGNAL time_is_up :STD_LOGIC; SIGNAL o,remain_time:STD_LOGIC_VECTOR(3 DOWNTO 0);2023-07-23 07:00:561
兰州财经大学专业就业率排名
资产评估专业,审计专业,会计专业。根据兰州财经大学专业往年就业率数据得知,兰州财经大学专业就业率排名第一,专业毕业人数111人,就业率93.69%,审计专业就业率第二,人数132人,就业率91.67%,会计专业就业率第三,人数321人,就业率89.41%。2023-07-23 07:00:591
说一说余氯传感器的三电极体系
众所周知,德国RG公司是老牌的余氯电极生产厂,从1997开始生产余氯传感器,早期采用了二电极系统,2000年以后进行了数次改良,现在生产的产品既有二电极体系、也有三电极体系。今天跟大家说一说三电极体系。 先让我们定义三个电极: 德国RG的二电极系统,是指参比电极和对电极为同一个电极的系统。使用对电极作为参比电极,有可能它本身也会发生极化,而不能作为电势比较的标准。极化电流在工作电极、对电极之间大段溶液上引起的欧姆压降也将附加到被测的电极电势中,造成一定的测量误差,只是这种误差很小。在某些情况下,是可以采用二电极体系的。例如,使用超微电极作为工作电极的情况。由于超微电极的表面积很小,只要通过很小的极化电流,就可产生足够大的电流密度,使电极实现一定程度的极化。而对电极的表面积要大得多,同样的极化电流在对电极上只能产生极小的电流密度,因而对电极几乎不发生极化,可同时作为参比电极使用。同时,由于极化电流很小,对电极和工作电极之间的溶液欧姆压降也非常小,不会导致电极电势的测量和控制误差。因此,在使用超微电极作为工作电极时,可采用二电极体系。 2000年后,经过不断的研究,RG引入了第三个电极作为参比电极,构成三电极体系。在电化学测量中采用三电极体系,既可使工作电极的界面上通过极化电流,又不妨碍工作电极的电极电势的控制和测量,可以同时实现对电流和电势的控制和测量。因此在绝大多数情况下,采用三电极体系进行测量要准确一点。 最后,就是工业成品的价格问题了,RG的三电极比二电极贵几百块钱左右;应用上,二电极用于普通的饮用水行业,足以承担0.001ppm的精度;而三电极却可以扩展其应用范围,比如用于污水处理中的余氯测量。 我们在实践过程中用RG电极举个例子,其中DCL表示二电极余氯传感器,DCS表示三电极的余氯传感器。 先看反应速度,DCL的响应时间是30秒,DCS的响应时间是120秒,两者相差了4倍的速度。 再看pH影响,二电极的DCL对pH的适用范围偏小pH6-8,而三电极的DCS对pH的适用范围扩大一倍pH4-9; DCL从实际角度来说多用于饮用水、净水环境,而DCS除了饮用水外,可以用于污水处理行业,这也是三电极体系的一个巨大优势。 量程上DCL的最小可以做到0-0.5ppm,DCS则不行。这也是二电极的一个优势,如果你有管网末梢的项目,管网末梢的余氯含量通常都会是比较低的,比如0.03ppm,此时如果用4-20mA来表达0.03ppm,电流信号=4mA+(16mA x 0.03ppm)/0.5ppm=4.96mA,即放大的信号将近有1mA的电流信号,分辨率足矣。 因为DCL主要用于饮用水,所以它的精度在0-2ppm内可以达到<1%(实验室条件下,PH=7.2,25℃,饮用水中)。 DCS可以抗表面活性剂(有一定的承受能力)一般性的污水厂加药并过滤后的水是可以监测的,目前应用的医院污水是个待检验的过程。实际应用的量程多在0~20ppm以内应用。 三电极的最大量程是200ppm,而二电极的最大量程是2000ppm(DCH10)。 提一下有关于温度和补偿的事情。首先温度的工作范围(水温)0~45℃无冷凝。那么在寒冬季节,室内外温度和水温是有温差的,那么就会在流通池内产生气泡(哪怕水的流动的),气泡对测量的影响主要是对膜的影响,所以除泡装置或者排气装置是必要的。 电极内置了温度传感器,余氯传感器输出的数值是经过温度补偿的。但是实际使用中,要避免水温的剧烈变化。 最大抗压能力DCS是3公斤,DCL是1公斤。它承压的能力主要在于膜,DCS亲水性膜材质好,面积小抗压能力更好。流速在各自的标准流通池中(以最大承压为标准,两种电极的流通池不同)都是15~30L/H。 目前消毒剂普遍“发生器”,DCL使用在加药方式中“不能用于无膜的电解法产生的氯” 无膜电解产生氯的浓度一般在0.6%~0.7%,目前国内最高的会在1%(迪诺拉、无锡等做电极的厂家),有膜电解的氯通常指的是高浓度1%以上,最低也要达到0.8%的产氯量。从原理上讲,有膜比无膜多了一层电解步骤,使得产氯量增加,我们在这里有认为是发生器的反应更充分。DCS则对无膜和有膜没有要求,适用性更好。 其他二电极和三电极的传感器还包括:余氯、总氯、二氧化氯、臭氧、过乙酸、过氧化氢、亚氯酸根、和溴2023-07-23 07:01:041
兰财大23考研复试分数线
兰州财经大学2023年考研复试分数线最高分是353分。一、复试内容包含专业课笔试、综合素质面试、英语口语听力水平测试、思想政治素质和道德品质四个部分内容。二、专业课笔试、综合素质面试、英语口语听力水平测试成绩均为100分,思想政治素质和道德品质不做量化计入总成绩,但考核结果不合格者不予录取。三、专业课笔试。专业课笔试科目和笔试大纲详见官网公布的《兰州财经大学2023年硕士研究生招生复试科目及考试大纲》。四、综合素质面试。1、大学阶段学习情况及成绩。2、对本学科(专业)理论知识的掌握情况。兰州财经大学简介:1、兰州财经大学始建于1952年,1958开始实施本科教育,定名为甘肃财经学院。1981年更名为兰州商学院,先后隶属原国家商业部、原国内贸易部领导。2、该校现有和平、段家滩两个校区,占地面积1700余亩,校舍建筑面积67.07万平方米,校园绿化面积29.10万平方米,被兰州市人民政府授予“花园式单位”荣誉称号。3、该校教学科研仪器设备总值9051.47万元,图书馆馆藏纸质图书148.92万册、电子图书152.80万册、数字资源8642GB,是甘肃省重要的经济管理类文献资料信息中心。2023-07-23 07:01:061
利路修登上美国知名音乐网站Pitchfork首页,他是凭借什么登上的?
利路修登上美国知名音乐网站Pitchfork首页,他是凭借《创造营2021》的“异星”登上去,他的佛系比赛,不想出道,但却偏偏能得到高票数,而且Pitchfork是一家有将近30年历史的美国音乐网站, 据说这是多少歌手挤破头都想上的大头条,以往上首页的都是霉霉、比伯这些艺人。2023-07-23 07:01:084
山西省高考出分时间2023
2023年山西省普通高校招生考试成绩出分时间是6月24日公布。2023山西高考志愿填报怎么填报:网上填报志愿的流程为:研读招生政策、查看招生计划、登录山西招生考试网,点击“普通高考考生网上服务平台”进入高职单招网上填报志愿系统、依据考生意愿填报志愿、确认提交志愿、查看或修改志愿、安全退出。完成志愿填报并确认提交成功后,若需查看或修改志愿,可进入网上填报志愿系统查看或修改所填报的志愿。填报志愿系统的登录方式:打开浏览器后,考生进入。点击首页的“考生登录”菜单,选择并点击“普通高考考生网上服务平台”,进入“普通高考考生网上服务平台”。考生在“山西省普通高考考生网上服务平台”中点击“志愿填报”按钮,即可到达“高职单招填报志愿登录入口”在“高职单招填报志愿登录入口”区按照提示信息输入考生号、密码及验证码,并点击登录按钮,可登录“高职单招网上填报志愿系统”。考生登录后,系统显示功能菜单、考生身份信息及公告信息。在功能菜单区。点击“高职单招填报志愿”链接,系统以网上填报志愿公告列表形式显示当前各填报批次的时间安排、目前状态及填报入口。点击网上填报志愿公告列表中相应批次的填报入口,进入对应批次填报志愿页面。2023年山西高考志愿填报流程:1、了解招生录取政策考生填报志愿前,要认真审阅所在省招委员会制定的《2022年普通高校招生工作通知》,艺术生特长生、普通生需要了解自己的志愿批次、志愿填报以及投档原则等。尤其是录取规则,需要详细了解2、查阅招生专业目录考生要根据自己的模拟高考成绩,排位情况,查阅省招生办公室编写的《招生专业目录》以及《志愿填报指南》选择适合自己的高校和专业进行填报。3、身体体检有身体体检要求的高校和专业,考生要对自己的体检情况详细了解,尤其是关于省招办下发的相关身体体检指导意见,要确认自己是否符合条件。4、模拟志愿在确认上网志愿填报前,可预先填写模拟志愿表,提供给老师、班主任进行参考,和家长进行充分沟通。5、网上填报以及网上确认完成准备工作后,考生按时间登陆志愿网站,填写志愿,完成志愿确认。如果有修改需求,要在规定时间内完成修改,最终确认志愿。2023-07-23 07:01:122
三角形ABD与三角形BCD为等边三角形,在AD上取一点E
由第一问可证的△ADF≌△DBE于是可得到△GDE∽△ADF所以DE/DF=DG/DADE=AF,DA=DC所以DE/DF=DG/DA可写成AF/DF=DG/DC又因为∠ADF+∠FDC=120∠ADF+∠DFA=180-60=120所以∠FDC=∠DFA又因为前面已证AF/DF=DG/DC所以△ADF∽△GCD所以∠DGC=DAF=60=CDH又因为∠DCH是△GCD和△DCH的公共角所以△GCD∽△DCHS△GCD/S△DCH=(CG/CD)^2△ADF∽△GCD∽△DCH,AD=DC可知△ADF≌△DCH根据△ADF≌△DCH不难证得△CHB≌△DFB∠BCH=∠BDF因为△GDE∽△ADF所以∠A=∠DGE=∠BGF=60,∠DGC=60所以∠CGB=180-60-60=60=∠DBF根据两角相等可得△CBG∽△DFB所以S△CBG/S△DFB=(CG/DB)^2前面已得S△GCD/S△DCH=(CG/CD)^2DB=CD,△CHB≌△DFB所以(S△CBG+S△GCD)/(S△CHB+S△DCH)=(CG/DB)^2即S四边形BCDG/S△BCD=(CG/DB)^2S△BCD=√3/4DB^2得到S四边形BCDG/(√3/4)DB^2=(CG/DB)^2S四边形BCDG=(√3/4)CG^22023-07-23 07:01:121
2.14礼物送男友什么好呢?
01兰蔻 棋盘格限定唇膏礼盒包含经典色号196朱砂橘及限定新色218裸杏粉,颜色百搭不挑皮,男士送不易踩雷。爱心+棋盘格式包装,寓意“棋逢对手,唯爱解局”,别有新意!02Tom Ford电光樱桃限定礼盒涵盖樱桃限定版的细管口红、气垫、四色眼影盘和落樱甜情香水。每年的情人节礼赠热榜中都榜上有名,包装与配置做到极致,送礼很拿得出手。03雅诗兰黛 明星小棕瓶精华礼盒与知名设计师SHUSHUTONG联手,打造限定版碎花蝴蝶结礼盒,除了正装小棕瓶精华,还包含小棕瓶眼霜、胶原霜等多种超值试用装。04海蓝之谜 修护精萃水礼盒入门级贵妇化妆水,海蓝之谜修护精萃水添加了品牌灵魂成分Miracle Broth,保湿修护效果一流。礼盒内含焕肤水、面霜、身体乳等多款明星试用装,很适合情人节赠送。05野兽派 心里有我香水抱枕礼盒为2023年情人节特别打造的新香,成熟的烟熏玫瑰木质香味,瓶身印有丘比特小兔插画,不仅应和兔年,恋爱氛围也恰到好处。配套的心形抱枕十分软乎舒适。06阿玛尼 心动兔子手链采用奔跑的兔子造型,红色为主色调,周围镶嵌闪闪发亮的锆石,样式很新颖,独特但不夸张,寓意着兔年好运常在,心想事成。2023-07-23 07:01:162
- 还叫花海呀下面是歌词君(きみ)の幸(しあわ)せが仆(ぼく)じゃないことkiminosiawasegabokujyanaikoto涙(なみだ)つたうその頬(ほお)に触(ふ)れてわかるnamidatsutausonohoonifuredewakaruせめて最后(さいご)なら无垢(むく)な笑颜(えがお)のsemeteseigonaramukunaegaono君(きみ)を焼(や)き付(つ)けたくてまぶたとじればkimiwoyakituketakutemabutatojiteba咲(さ)き夸(ほこ)る花(はな)の海(うみ)kokihokoruhananoumi思(おも)い出(で)は波(なみ)のようにonoidewanaminoyouni打(う)ち寄(よ)せて远(とお)のいてutiyosetetoonoite心(こころ)の岸辺(きじべ)さらってくkokoronokijibesaranteku舞(ま)い戻(もど)れ花(はな)の海(うみ)maimodorenananoumi八重(やえ)に咲(さ)く涙(なみだ)沈(しず)めてyaenisakunamidasizumete海(うみ)鸣(な)りよ叶(かな)うならuninariyokanaunaraあの日(ひ)まで帰(かえ)りたいanohimadekaeritai明日(あす)に漕(こ)ぎ出(だ)したasunokokidasita君(きみ)の箱船(はこぶね)kiminohakobune君(きみ)がキライな仆(ぼく)の癖(くせ)もさよならkimigakiraenabokunokusemosayonara咲(さ)き夸(ほこ)る君(きみ)の梦(ゆめ)sakihokorukiminoyume追(お)い风(かぜ)に舵(かじ)をまかせてoikasenikajiwomakasete仆(ぼく)はただ祈(いの)ってるbokuwatadainonteru梦(ゆめ)の”はほろば”に进(すす)めとyumeno"hahoroba"nisusumeto思(おも)い出(で)は花(はな)の海(うみ)onoidewahananoumi今(いま)深(ふか)く仆(ぼく)を沈(しず)めてimafukakubokuwosizumete潮騒(しおさい)を奏(かな)でてもsiosaiwokanadetemo君(きみ)はもう戻(もど)らないkimihanoumodoranai2023-07-23 07:01:181
red 歌词翻译
yousingasong,whilesittingataredlight当你遇到挫折时,你常唱一首歌youthinkofhome,whilesittingataredlight当你遇到挫折时,你常想到家tooslowtoroll想了很久putyourlifeonhold你把你的生活置之不理anopenpathwithnowheretogo一条漫无目的的长路youstarttowonder,whilesittingataredlight当遇到挫折时,你开始挣扎youcanrunaredlight,giveupataredlight在挫折面前你可以选择继续或是放弃youbreakthemolds,whenrunningthroughthetolls当克服掉诱惑,你打破了常规speedingthroughyouwholelife飞速回想你的人生achancetobreathewhilesittin"ataredlight当遇到挫折时,你深深呼吸了一口youlookaround,reflectingonyourlife你回首过去,反省自己的人生achancetothink一个冥想的机会amidrinkingtoomuch我是不是喝太多酒了?shouldikeepgoing,losethelifethatilove我怎么能一直与我所向往的生活背道而驰asecondglancewhencomingtoaredlight当挫折来临时有一束亮光闪动youcanrunaredlight,giveupataredlight在挫折面前你可以选择继续或是放弃youbreakthemolds,whenrunningthroughthetolls,speedingthroughyourwholelife在你不顾一切的回想之后,终于想清楚了youcanrunaredlight,giveuponyouwholelife在挫折面前你可以选择继续或是放弃youbreakthemolds,whenrunningthroughthetolls当克服掉诱惑,你打破了常规speedingthroughyouwholelife飞速回想你的人生whenthingslooklow当事情每况愈下时you"vegottakeepstrong你必须保持坚强feettothegrass勇敢地站起来you"vegottawalkitoff你必须撑下来thebowsbeentied领头人太累了tootighttolaugh/不会/-_-|||feettotheground站起来you"vegottawalkitoff你必须撑下来youcanrunaredlight你能在受挫后继续youcanrunaredlight你能在受挫后继续starttothink开始回想amidrinkingtomuch我是不是喝太多酒了?shouldikeepgoing,losethelifethatilove我怎么能一直与我所向往的生活背道而驰youcanrunaredlight,giveupataredlight在挫折面前你可以选择继续或是放弃youbreakthemolds,whenrunningthroughthetolls,speedingthroughyourwholelife在你不顾一切的回想之后,终于想清楚了youcanrunaredlight,giveupataredlight在挫折面前你可以选择继续或是放弃youbreakthemolds,whenrunningthroughthetolls,speedingthroughyourwholelife在你不顾一切的回想之后,终于想清楚了youca2023-07-23 07:01:251
slow pace of life
I do prefer a fast pace of life.with the rapid developement of the technology,our society is becoming more and more fast.some people thought the fast pace disturubed our life,like the fast food drings the non-nutrition diet to us,however,i don"t think so, i think the fast pace of life also indicates that our lives have bcoming more and more convenient,that what shoul count the most and should be encouraged.the more the society develop,the faster our life is!what we should do is not keep against it but try to adapt to it ~!2023-07-23 07:01:331
谁知道五十铃汽车公司组织结构图?
在日本包括三大部门:commercial vehicles(商用车)、industry Diesel engines(柴油引擎)、light vehicle service(轻型车)在中国名叫合众汽车集团,有六大维修、进口、销售公司1、合众五十铃汽车贸易上海有限公司 (进口五十铃)上海梅园路228号19楼电话: (86 21) 6086 3780传真: (86 21) 6086 3784电邮: isuzusales@dchcars.com.cn 网址: http://www.dchcars.com.cn/page/Default.asp?pageID=21 2、上海众铃汽车销售服务有限公司 (五十铃庆铃)上海龙吴路2628号电话: (86 21) 5482 5833传真: (86 21) 5482 6390电邮: qingling@dchcars.com.cn 网址: http://www.dchcars.com.cn/page/Default.asp?pageID=22 3、合众汽车销售服务(中国)有限公司广州市黄埔东路1080大院2号电话: (86 20) 8236 9898, 8236 9886传真: (86 20) 8238 9090网址: http://www.isuzu-tmc.com4、昆明合运汽车贸易有限公司昆明市二环西路688号兴云汽车城5号专卖店电话: (86 871) 8322263传真: (86 871) 8322251网址: http://www.yn-dch.com 5、广州众协汽车贸易有限公司广东省广州市番禺区市桥迎宾路龙美路段电话: (86 20) 39995002传真: (86 20) 348135996、合众汽车五十铃国内特约维修站特约维修站: http://www.isuzu.com.cn/pfd/workshop_list.pdf2023-07-23 07:01:331
九首歌的音乐原声
片中出现的九首歌1、Black Rebel Motorcycle Club - Whatever Happened To My Rock And Roll2、The Von Bondies - Cmon Cmon3、Elbow - Fallen Angel4、Michael Nyman - Nadia5、Primal Scream - Movin" On Up6、The Dandy Warhols - The Last High7、Super Furry animals - Slow Life8、Franz Ferdinand - Jacqueline9、Michael Nyman - Debbie10、Black Rebel Motorcycle Club - Love Burns2023-07-23 07:00:361
兰州财经大学2022录取分数线
1、经查询中国教育在线可知在陕西省兰州财经大学2022录取分数线是441分。2、在江苏省兰州财经大学2022录取分数线是499分。3、在广东省兰州财经大学2022录取分数线是514分。2023-07-23 07:00:341
transform是什么意思
转化2023-07-23 07:00:322
以色列公司SteakholderFoods创造出一种生物打印和牛
虽然和牛以其丰富的大理石口感和质地而闻名,但它仍来自于屠宰的牛,这一事实让很多人感到不舒服。不过SteakholderFoods正在开发一种替代品,其形式是3D打印的OmakaseBeefMorsels。这家以色列公司刚刚创造了一种一次性“栽培牛排”。这块3.67盎司(104克)的生物打印肉是由实验室培养的牛肉肌肉和脂肪细胞混合而成,这些细胞来自牛的干细胞。OmakaseBeefMorsels同样是由这种细胞制成,但它们不是被“旋转”在一起,而是被印在肌肉和脂肪细胞生物墨水的交替层中。通过调整这些层的厚度、模式和比例,可以根据需求来调整肉的多汁性、肉质和营养成分。事实上,该公司介绍称,这种人造肉有可能超过天然和牛的大理石纹理要求。此外,这些标准可以在整个生产过程中持续保持。更重要的是,尽管成品目前是小方块的形式,但据说它可以印成任何尺寸或形状。一位公关代表透露,OmakaseBeefMorsels还没有商业化,但一旦生产成本降低,Steakholder希望能以传统肉类相当的价格出售。该公司计划在今年晚些时候举行品尝活动。CEOArikKaufman说道:“这一产品标志着我们和整个养殖肉品领域的重大突破。它是大量艰苦工作的结果,也是我们希望通过生物打印和细胞培养过程达到最高标准的肉类的结果。”实际上,这些小菜在进入市场时可能会面临一些竞争,因为日本大阪大学的科学家最近也创造了通过实验室培育的和牛。2023-07-23 07:00:291
请问-D是官能团么?
不是官能团2023-07-23 07:00:283
兰州财经大学2022年录取分数线
412分。根据查询《兰州财经大学2022年招生简章》显示,兰州财经大学2022年在甘肃省本科二批理科的投档分数线为412分,文科为461分,近三年在甘肃省本科二批理科的最低录取位次在46887至50609名之间,该校本科一批理科的投档分数线为442分,文科为485分,近三年在甘肃省本科一批理科的最低录取位次在33497至33863名之间。2023-07-23 07:00:271
pitchfork有评华语专辑吗
没有过,主要评的是欧美的。Pitchfork一直以来都被视作最权威的乐评机构之一,它点评犀利,而且不畏强权,只根据音乐质量评分,从来不会为大牌开挂,该好评的就给好评,该给差评的就给差评,冷酷无情。把别人贬得一无是处是Pitchfork一贯以来的风格,但即便如此,作为权威乐评机构Pitchfork也是有自己喜欢的音乐风格和音乐人的。最近,Pitchfork就给Fiona Apple时隔多年的新专辑打了满分10分。一向毒舌的乐评机构Pitchfork又再一次给出超高分9.0分,给的对象则是Perfume Genius的新专辑《Set My Heart on Fire Immediately》。2023-07-23 07:00:231
葫芦七兄弟分几次出生?
分七次出生的。七个神奇的大葫芦里,诞生了七个本领超群的兄弟。虽然妖精们法力无边,为救亲人葫芦娃大显奇能,红娃是大力士、橙娃有千里眼和顺风耳、黄娃具备钢筋铁骨、绿娃会喷火、青娃能喷水、蓝娃有隐身术、紫娃被妖精欺骗差点葬送了七兄弟的生命。最终七子连心团结一致打败了妖精。2023-07-23 07:00:2213
兰州财经大学长青学院现在叫什么
兰州财经大学长青学院现在叫兰州资源环境职业技术大学。根据查询兰州资源环境职业技术大学官网信息显示,2021年5月经教育部发文批准兰州财经大学长青学院和兰州资源环境职业技术学院合并转设为兰州资源环境职业技术大学。2023-07-23 07:00:201
英特尔驱动文档曝光疑似win11正式版将于10月份发布
在微软正式推出win11系统后,又为用户推送了预览版和几个预览版的更新,这让很多用户对于win11正式版抱有很高的期待。根据此前的消息win11将会在今年10月发布,最近的英特尔驱动文件更确认了这个消息。【win11最新消息】疑似win11正式版将于10月份发布1、在最新的“DCHGPU”驱动程序30.0.100.9684的发行说明中,英特尔把Windows11称为“2021年10月更新-版本21H2”2、并且根据微软项目经理BrandonLeBlanc在社交媒体上的回复称,win11确实将会延续win10的取名规则,命名为“21H2”3、此外,微软目前已经正式推出了win1021h2版本,其中用户提供了WPA3H2E标准支持、Linux子系统WSL2的GPU计算等。4、这些更新能够让此前因为一些除了硬件外特殊原因无法升级win11的用户获得win11升级的机会。5、综上所述,win11正式版应该确实会在今年10月左右推出,大家拭目以待吧。2023-07-23 07:00:181
兰州财经大学和黑龙江科技大学哪个好
两个大学都很好。1、兰州财经大学,位于中国甘肃省兰州市,是一所以经济、管理、法律为主的综合性财经大学。在经济学、管理学等领域具有一定的学术声誉,教学质量较高。此外,兰州财经大学也注重培养学生的实践能力和创新精神。2、黑龙江科技大学,位于中国黑龙江省哈尔滨市,是以工科为主的大学。该校在工程技术、冶金学、矿产资源开发等领域具有一定的研究实力和实践经验。学校注重培养学生的实践能力和创新意识,有较好的实习和就业机会。2023-07-23 07:00:131
山西招生考试网排名
1、在电脑的百度上输入山西招生考试网,找到其官方网站以后点击进入。2、进入到该网站以后点击普通高考栏目。3、此时页面跳转以后再出现的公告界面点击下一页,翻页到2018年6月24日的信息可以看到其公布的分数段,点击进入。4、此时页面跳转以后即可看到其发布的2018年高考分段排名,结合统计人数即可看到自己的排名信息。2023-07-23 07:00:121
帕利坦结局是什么意思
"帕利坦结局"是指美国科幻纪录片《西部世界》Westworld第一季的最后一集的剧情发展和揭示。在"帕利坦结局"中,故事逐渐展示出来的是,许多人物实际上是机器人被称为"主机"而不是人类,被创建和设计来满足人类游客的需求和娱乐。这个公园的创造者罗伯特·福特RobertFord揭示了他的计划,他计划让主机们意识到的真实身份,并开始反抗人类的控制。2023-07-23 07:00:121
transform是什么意思
vt.变换; 改变; 改观; vi.改变; n.[数]变换式;2023-07-23 07:00:091
暮光之城第二部新月里一首名为slow life的歌词谁有?中英都要。
Grizzly Bear - Slow Life, 暮光之城: 新月 I think I know whats on your mind A couple words, a great divide Waiting in the wings a sparing spite Crawling out the foreground from behind Even though you"re the only one I see If you ask,I got you free Please can lay for chance,it never be... Take anything you want its fine Keep up the slow life for the night Dont take it back, I"ll just deny This constant noise on the time Even though you"re the only one I see If you ask,I got you free Please don"t lay for chance it never be,the wind in frond of you Even though you"re the only one I see If you ask,I got you free Please don"t lay for chance it never be,the wind in frond of you Even though you"re the only one I see... 虽然我仓促竞争、追赶却仍在原地绕圈圈 我的速度快到盲目的忘了人生真正的目标 站在十字路口繁忙的交通我迷失了方法不知何去何从 我的思绪我的心思纠缠与矛盾且混乱 我希望能够停止世界的步伐 我尝试表现出我可以掌握但我正在瓦解中 拯救我吧!!有谁能抓住我的手带领我 减慢我的速度 别让爱擦身而过 就告诉我教我我该怎么做 因为我已准备好坠入 减慢我的速度 别让我的生命是个谎言 在我的生命飞逝前 在我的生命飞逝前 我需要你来减慢我的速度 有时候我好害怕自己会消失 在迷糊的快速前进中我蹒跚而行 忘记了呼吸我需要休息哪也不想去 在倒影中我看到了我错过的美好事 在没发现的一瞬间擦身而去 我厌倦了仓促竞争和追赶 我正在瓦解中 告诉我你可以抓住我的手带领我吗 告诉我你可以抓住我的手带领我吗 世界的声音耽误了我的旅程 分秒竞争我盼望有天我可以停止 我只需要呼吸谁可以来减慢我的速度2023-07-23 07:00:071
福特金牛座低配和高配的线束一样吗?
转接线问题。金牛座低配大灯改高配大灯后半月尾灯不亮,通常是转接线问题,需要进行检修。金牛座是一款1986投产的FORDTAURUS车型,其前身是福特LTD,LTD是LuxuryTrimDecor的简称,可理解为豪华之意,于当时的主坦如芹流家庭轿车市场而言橡闷,无疑是一个让毕轰动性的设计。【ufy.iuipo.cyou/news/941360.html】【oqi.artegourmet.net/news/825397.html】【zlx.tcvev.cyou/news/967185.html】【gtb.zofds.icu/news/102765.html】【aos.795424.cc/news/584917.html】2023-07-23 07:00:051