廖世军_百度百科
廖世军,湖北鄂州人,华南理工大学教授,博士生导师,广东省燃料电池重点实验室主任。
廖世军人物履历
1982年学士毕业于华中师范大学黄石分院
1988年硕士毕业于吉林大学
1999年博士毕业于华南理工大学
2000年在南非西开普大学从事博士后研究
2005年在加拿大卡尔加里大学访问研究
廖世军研究领域
多相催化及电催化: 固体酸催化, 多孔催化材料, 电催化剂电化学及燃料电池: 燃料电池催化剂, 燃料电池膜电极制备技术, 燃料电池极板及电堆设计; 大功率燃料电池电堆的开发;精细化工: 炼油下游产物(烯烃)的高效利用;
廖世军学术兼职
Journal of Nanomaterials 副主编(Associate Editor)
Current Nanascience 编委,
Nanoscience and Nanotechnology-Asia 编委,
Open Journal of Microphysics 编委
中国化学会催化专业委员会委员、电化学委员会委员
中国仪表材料学会储能与动力电池专业委员会委员
教育部基础化学教学指导分委员会委员
《华南理工大学学报》编委
《广东化工》常务编委
第15届全国催化学术会议组织委员会主席
第十五届国际分子筛大会组织委员会委员
第3届国际能源与环境材料大会组织委员会副主席
第11届国际清洁能源大会(The 11th International Conference on Clean Energy (ICCE‐2011) 国际顾问委员会委员
第25届世界电动车大会(EVS 25)国际程序委员会委员
香港先进电能研讨会(AdvancedElectrochemical Energy Symposium.)国际学术委员会委员
廖世军研究成果
1.主持和完成各类科研项目30 项;其中省级以上科研项目10 项、2.重大项目1 项;省部级科技奖励4项;其中排名第一获教育部高等学校自然科学二等奖1项,科技进步二等奖1项;3.省级鉴定成果3项;申请专利21项,获授权9项,申请美国专利2项;4.发表论文213篇,其中影响因子大于2.0的论文40篇;H因子等于10,在JACS发表论文2篇,单篇最高引用次数达到115次。先后有4篇文章被Chemistry World, Nature China, Nature Asia, Nature Materials 选为Highligt文章加以评介。5.参编出版编著2 本, 其中1 本在国际著名出版社SPRINGER 出版社出版。6.在国内率先开展羧酸与烯烃直接酯化合成羧酸酯研究和工业化实践,已在全国形成年产100万吨规模的乙酸异丙酯、乙酸仲丁酯生产规模;2007年,该技术获教育部科技进步二等奖。7.主持完成的广东省重大科技项目-300KW 燃料电池电站的开发研究,建成了全球最大的质子交换膜燃料电池电站,国内外数十家媒体给予了报道宣传。
廖世军科技奖励
质子交换膜燃料电池的应用基础研究, 教育部高等学校自然科学二等奖,2010, 排名第一;乙酸/丙烯直接酯化合成乙酸异丙酯合成新工艺及催化剂, 教育部高等学校科技进步二等奖,2007, 排名第一;醋酸乙酯合成节能新技术研究, 广州市科技进步三等奖, 2007, 排名第三;醋酸乙酯节能合成技术, 中国石油与化工协会科技进步三等奖, 排名第三;
廖世军代表专利
1.一种微型组合再生式燃料电池,中国专利申请号: ZL.8, (授权)2.用于燃料电池膜电极的电催化剂及其制备方法及膜电极,中国专利申请号: PCT/CN,.用于汽车内燃机节能和减排的电化学装置及其制造方法,中国专利申请号: .64.用于汽车内燃机节能和减排的电化学装置,中国专利申请号: .75.用于汽车内燃机节能和减排的电化学装置及其制造方法,中国专利申请号: PCT/CN.燃料电池用增强型保水复合膜及其制备方法,中国专利申请号: .X7.用于燃料电池的铂碳类催化剂的固相还原制备方法,中国专利申请号: (授权)8.用于燃料电池的碳载铂基催化剂及其制备方法,中国专利申请号: (授权)9.用于燃料电池膜电极的催化剂的制备方法及燃料电池膜电极,中国专利申请号: 10.一种微型组合再生式燃料电池电源系统, 中国发明专利申请, .8(授权)11.一种直接喷涂制备燃料电池膜电极的方法,中国专利申请号: ZLZL.4, 2008年4月(授权)12.一种由乙酸和线性丁烯合成乙酸仲丁酯的方法,中国专利申请号: .213.用于燃料电池催化剂的铂碳类催化剂的固相还原制备方法,中国专利申请号: .0(授权)14.碳载贵金属催化剂及其制备方法, 中国发明专利申请号: .3(授权)15.直接喷涂制备燃料电池膜电极的方法, 中国专利申请号:.4(授权)16.以杂多酸为促进剂的燃料电池阳极催化剂及其制备方法, 中国专利申请号: .9(授权)17.用于燃料电池催化剂的铂碳类催化剂的固相还原制备方法,中国专利申请号: .0(授权) 18.用于燃料电池的碳载铂基催化剂及其制备方法, 中国专利申请号: .X(授权)19.乙酸异丙酯合成工艺及催化剂的制备方法,中国专利申请号:, 日, 公开号: CN 1483717 A. (授权)20.一种光催化剂及其制备方法, 中国专利申请号: (申请号)2001 专利授权号:ZL 01 1 27860.9(授权)
廖世军代表论文
1. Wu YN, Liao SJ, Su YL, Zeng JH, Dang D. Enhancement of anodic oxidation of formic acid on palladium decorated Pt/C catalyst. JOURNAL OF POWER SOURCES, ):
2. Wu YN, Liao SJ, Wang KN, Chen M, Birss V. High pressure organic colloid method for the preparation of high performance carbon nanotube-supported Pt and PtRu catalysts for fuel cell applications. SCIENCE CHINA-TECHNOLOGICAL SCIENCES, ):264-271
3. Gao, HL; Liao, SJ; Zeng, JH, et al. Platinum decorated Ru/C: Effects of decorated platinum on catalyst structure and performance for the methanol oxidation reaction, JOURNAL OF POWER SOURCES,(1):54-61
4. Su, HN; Zeng, QA; Liao, SJ, et al. High performance membrane electrode assembly with ultra-low platinum loading prepared by a novel multi catalyst layer technique, INTERNATIONAL JOURNAL OF HYDROGEN ENERGY,):
5.Liang, ZX; Shi, JY; Liao, SJ, et al. Noble metal nanowires incorporated Nafion (R) membranes for reduction of methanol crossover in direct methanol fuel cells,INTERNATIONAL JOURNAL OF HYDROGEN ENERGY,):
6. Su, HN; Xu, LM; Zhu, HP, et al*. Self-humidification of a PEM fuel cell using a novel Pt/SiO2/C anode catalyst,INTERNATIONAL JOURNAL OF HYDROGEN ENERGY,):
7. Hong, P; Liao, SJ; Zeng, JH*, et al. Design, fabrication and performance evaluation of a miniature air breathing direct formic acid fuel cell based on printed circuit board technology,JOURNAL OF POWER SOURCES,(21):
8. Wu, YN; Liao, SJ*; Su, YL, et al. Enhancement of anodic oxidation of formic acid on palladium decorated Pt/C catalyst,JOURNAL OF POWER SOURCES,(19):
9. Wu, YN; Liao, SJ*; Wang, KN, et al High pressure organic colloid method for the preparation of high performance carbon nanotube-supported Pt and PtRu catalysts for fuel cell applications,SCIENCE CHINA-TECHNOLOGICAL SCIENCES,): 264-271
10. Wu, YN; Liao, SJ*: Shortened Carbon Nanotubes as Supports to Prepare High-Performance Pt/SCNT and PtRu/SCNT Catalysts for Fuel Cells,ACTA PHYSICO-CHIMICA SINICA, ): 669-674
11. Luo, YL; Liang, ZX; Liao, SJ,Recent Development of Anode Electrocatalysts for Direct Methanol Fuel Cells,CHINESE JOURNAL OF CATALYSIS,): 141-149
12. Su, HN; Liao, SJ*; Wu, YN,Significant improvement in cathode performance for proton exchange membrane fuel cell by a novel double catalyst layer design,JOURNAL OF POWER SOURCES,(11):
13.Zeng, JH; Liao, SJ; Lee, JY, et al. Oxygen reduction reaction operated on magnetically -modified PtFe/C electrocatalyst,INTERNATIONAL JOURNAL OF HYDROGEN ENERGY,2010, 35(3): 942-948
14. Li, H; Jin, Z; Song, HY, et al*. Synthesis of Co submicrospheres self-assembled by Co nanosheets via a complexant-assisted hydrothermal approach,JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS,(1): 30-35
15. Su, HN; Liao, SJ*; Shu, T, et al. Performance of an ultra-low platinum loading membrane electrode assembly prepared by a novel catalyst-sprayed membrane technique,JOURNAL OF POWER SOURCES,(3): 756-761
16.Hua-Neng Su, Shi-Jun Liao?, Ting Shu, Hai-Li Gao. Performance of an ultra-low platinum loading membrane electrode assembly prepared by a novel catalyst-sprayed membrane technique. JOURNAL OF POWER SOURCES. (3):756-761
17. Li H, Jin Z, Song HY, Liao SJ. Synthesis of Co submicrospheres self-assembled by Co nanosheets via a complexant-assisted hydrothermal approach. JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS, (1):30-35
18. Li Du, Shijun Liao*, Hussam A. Khatib, J. Fraser Stoddart, Jeffrey I. Zink., Controlled-Access Hollow Mechanized Silica Nanocontainers. Journal of the American Chemical Society, ): p. .
19. Cui JJ, He W, Liu HT, et al. Ordered hierarchical mesoporous anatase TiO2 from yeast biotemplates. COLLOIDS AND SURFACES B-BIOINTERFACES, ):274-278
20. Su HN, Liao SJ, Xu LM. Design, Fabrication and Preliminary Study of a Mini Power Source with a Planar Six-cell PEM Unitised Regenerative Fuel Cell Stack. FUEL CELLS, ):522-527
21. Y. N. Wu, S.J. Liao, Z.X. Liang, L.J. Yang, R.F. Wang. High-Performance Core-Shell PdPt@Pt/C Catalysts via Decorating PdPt Alloy Cores with Pt. JOURNAL OF POWER SOURCES, (2):805-810
22. Du L, Song HY, Liao SJ. Tuning the morphology of mesoporous silica by using various template combinations. APPLIED SURFACE SCIENCE, (23):
23. Xiaobing Li, Shijun Liao, Jinhua Piao, Xueye Wang. Theoretical study on sulfonated and phosphonated poly[(aryloxy)phophazenes] as proton-conducting membranes for fuel cell applications. EUROPEAN POLYMER JOURNAL, ):
24. J.H. Piao, S.J. Liao, Z.X. Liang,A novel cesium hydrogen sulfate-zeolite inorganic composite electrolyte membrane for polymer electrolyte membrane fuel cell application. JOURNAL OF POWER SOURCES, (2): 483-487
25. Li H, Liao SJ. A magnetic-field-assisted solution-phase route to cobalt thin film composed of cobalt nanosheets. JOURNAL OF MATERIALS CHEMISTRY, ):
26. Huang DG, Liao SJ, Zhou WB, et al. Synthesis of samarium- and nitrogen-co-doped TiO2 by modified hydrothermal method and its photocatalytic performance for the degradation of 4-chlorophenol. JOURNAL OF PHYSICS AND CHEMISTRY OF SOLIDS, ):853-859
27. Li Du, Quanbing Liu, Xu Yang, Huiyu Song, Zhiyong Fu, Shan Ji, Shijun Liao. Porous Grape-like Sphere Silica with Hydrogen Storage Capability Synthesized by Using Neutral Dual Surfactants as Templates. INTERNATIONAL JOURNAL OF HYDROGEN ENERGY, ):
28. Yi JL, Fu ZF, Liao SJ. A new 3-D microporous Ln(III)-Cu(I) framework constructed by pyridine-3,5-dicarboxylate, JOURNAL OF COORDINATION CHEMISTRY, ):
29. Li H, Liao SJ. Preparation of large Co nanosheets with enhanced coercivity by a magnetic-field-assisted solvothermal approach free of surfactants, complexants or templates. JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS, (17):
30. Huaping Zhu, Shijun Liao, Liyan Ye, Xinfa Hu, Bamin Khomami and Michael Z. Hu. A Modified Solid-State Reduction Method to Prepare Supported Platinum Nanoparticle Catalysts for Low Temperature Fuel Cell Application. CURRENT NANOSCIENCE, ):252-256
31. Xiaobing Li, Shijun Liao. Theoretical study of proton transfer in triflic acid/water, imidazole and pyrazole clusters. JOURNAL OF MOLECULAR STRUCTURE-THEOCHEM, (1-3): 66-68
32. Du Li, Song Huiyu, Yang Xu, Liao Shijun*, A novel hollow sphere mesoporous material synthesized by using DADD template and embedding Nd into framework simultaneously, MICROPOROUS AND MESOPOROUS MATERIALS, -3):261-267.
33. Huang Xinjian, Wang Lishi, Liao Shijun, Method of evaluation of electron transfer kinetics of a surface-confined redox system by means of Fourier transformed square wave voltammetry ANALYTICAL CHEMISTRY, ): .
34. Huang Donggen, Liao Shijun, Quan Shiquan, Synthesis and characterization of visible light responsive N-TiO2 mixed crystal by a modified hydrothermal process, JOURNAL OF NON-CRYSTALLINE SOLIDS, ): .
35. Wang Rongfan, Liao Shijun*, High performance Pd-based catalysts for oxidation of formic acid, JOURNAL OF POWER SOURCES, ):205-208.
36. Wang Rongfan, Liao Shijun*, Platinum free ternary electrocatalysts prepared via organic colloidal method for oxygen reduction, ELECTROCHEMISTRY COMMUNICATIONS, ): 523-526.
37. Li Hao, Liao Shijun*, Synthesis of flower-like Co microcrystals composed of Co nanoplates in water/ethanol mixed solvent, JOURNAL OF PHYSICS D-APPLIED PHYSICS, ): 280;
38. Li Hao, Liao Shijun*, Organic colloid method to prepare ultrafine cobalt nanoparticles with the size of 2 nm, SOLID STATE COMMUNICATIONS, ): 118-121.
39. Fu Zhiyong, Yi Manglong, Chen Yuan, Liao Shijun: From interwoven to noninterpenetration: Crystal structural motifs of two new manganese-organic frameworks mediated by the substituted group of the bridging ligand, EUROPEAN JOURNAL OF INORGANIC CHEMISTRY, 8-634.
40. Yuan Gao-Qing, Jiang Huan-Feng, Lin Chang, Liao Shi-Jun, Efficient electrochemical synthesis of 2-arylsuccinic acids from CO2 and aryl-substituted alkenes with nickel as the cathode, ELECTROCHIMICA ACTA, ): .
41. Fu ZY (Fu, Zhiyong), Yi JL (Yi, Jianglong), Chen Y (Chen, Yuan), Liao SJ (Liao, Shijun), Guo N (Guo, Ning), Diethylammonium ethyl (4-methylanilino) phosphonate chloroform solvate, ACTA CRYSTALLOGRAPHICA SECTION E-STRUCTURE REPORTS ONLINE 63: O Part 10, OCT 2007 (SCI 217KP.)
42. Yuan GQ, Jiang HF, Lin C, Liao Shijun. et al. Shape- and size-controlled electrochemical synthesis of cupric oxide nanocrystals, JOURNAL OF CRYSTAL GROWTH 303 (2): 400-406 MAY 15 2007; (SCI 171NE. EI)
43. Cai YF, Liu JM, Liao SJ(联系人), Preparation, characterization and electrocatalytic properties of promoted PtMoSi/C catalysts, ACTA PHYSICO-CHIMICA SINICA 23 (1): 92-97 JAN 2007 (SCI 172UU.)
44. Ren JW, Liao SJ(联系人), Liu JM, MNi4.8Sn0.2(M=La, Nd)-supported multi-walled carbon nanotube composites as hydrogen storage materials, CHINESE SCIENCE BULLETIN 52 (12):
JUN 2007 (SCI 183NB.)
45. Rong-Fang Wang, Shi-Jun Liao*(联系人),Hai-Yang Liu, Hui Meng, Synthesis and characterization of Pt–Se/C electrocatalyst for oxygen reduction and its tolerance to methanol, Journal of Power Sources
(2) 471–476, (SCI 219EG.)
46. Liu Junmin, Liao Shijun* (联系人)et al. Preparation of high performance Pt/CNT catalysts stabilized by ethylenediatminetetraacetic acid disodium salt, Fuel Cell, ): 402-407 (SCI 227NE)
47. Huang Donggen, Liao Shijun(联系人) et al, Journal of Materials Science, ): (SCI 193UZ. EI)
48. Huang DE, Liao SJ, Quan SQ, et al.Preparation and characterization of anatase N-F-codoped TiO2 sol and its photocatalytic degradation for formaldehyde, JOURNAL OF MATERIALS RESEARCH, ):
(SCI 206GA. EI)
49. WANG Rong fang, L IU Junmin, L IAO Shijun (联系人), HighMethanol Tolerance of PdCo /C Catalysts for Oxygen Reduction, 中山大学学报(自然科学版)ACTA SCIENTIARUM NATURAL IUM UN IVERSITATIS SUNYATSEN I.
50. Jun-min Liu, Shi-jun Liao*, Guo-dong Jiang, Xue-lian Zhang, Leslie PetrikPreparation, characterization and catalytic activity of Zr embedded MSU-V with high thermal and hydrothermal stability,Microporous and Mesoporous Materials,-3), 306–311 (SCI 095KJ )
51. Dong-Gen Huang, Shi-Jun Liao, Jun-Min Liu, Zhi Dang, Leslie Petrik,Preparation of visible-light responsive N–F-codoped TiO2 photocatalyst by a sol–gel-solvothermal method,Journal of Photochemistry and Photobiology A: Chemistry
(1) 282–288 (SCI 087BH )
52. REN Jianwei, LIAO Shijun & LIU Junmin,Hydrogen storage of multiwalled carbon nanotubes coated with Pd-Ni nanoparticles under moderate conditions,Chinese Science Bulletin,): 1—5
53. Liao, S.; Holmes, K.-A.; Tsaprailis, H.; Birss, V. I.,High Performance PtRuIr Catalysts Supported on Carbon Nanotubes for the Anodic Oxidation of Methanol,J. Am. Chem. Soc.; (Communication); ); . (SCI IDS Number: 025XD)
54. Huang DG, Liao SJ, Dang Z Study on determination of impurities in tungsten concentrates with ICP-MS, RARE METAL MATERIALS AND ENGINEERING 35 (2): 333-336, 2006 (SCI IDS Number: 022XS)
55. Liu Haiyang, Tian Junchun, Ying Xiao, Xu Zhiguang, Liao Shijun, Chang Chikwong, Theoretical investigation on the second-order nonlinear optical properties of chiral amino acid zinc porphyrins, Chinese Journal of Structural Chemistry, ):263-268 (SCI IDS Number: 910OJ)
56. Shijun Liao?, Huang Donggen, Denghua Yu, Yunlan Su, Gaoqing Yuan, Preparation and characterization of ZnO/TiO2, SO42?/ZnO/TiO2 photocatalyst and their photocatalysis, Journal of Photochemistry and Photobiology A: Chemistry, -2): 7-13(SCI EI 861SX)
57. SHIJUN LIAO, V LINKOV, L PETRIK, Electooxidation of ethanol over a membrane-based electrode, Applied Catalysis A, General, (2):191-196 (SCI EI 774FR)
58. SHIJUN LIAO, V LINKOV, L PETRIK, Electooxidation of methanol over a membrane-based electrode and effect of tungsten and molybdenum on the activity, Applied Catalysis A, General, -2): 147-153 (SCI EI )
企业信用信息康振辉_百度百科
1999年获东北师范大学理学学士学位;2005年获东北师范大学理学博士学位;09.1在香港城市大学生物及化学系、超金刚石与先进薄膜中心从事博士后研究。08.5在东北师范大学化学学院多酸化学研究所工作,先后任助教、讲师。2008. 6加入苏州大学功能纳米与软物质(材料)实验室,被聘为教授,博士生导师。
康振辉研究领域
多酸化学、纳米材料化学、纳米催化
康振辉科研成果
通过多种易行的技术路线可控制备出多种碳、硅纳米结构;制备出直径小于4 nm的具有良好荧光特性的碳量子点,并设计了基于碳量子点的复合催化剂体系;首次提出将碳纳米管作为C-H-O体系中烃类羟基化反应的非均相催化剂;首次观察到1-4 nm硅量子点的可见光催化特性。已在J. Am. Chem. Soc,Angew. Chem. Int. Ed.,Adv. Mater.,Chem. Commun.,J. Phys. Chem. B,Nanotechnology等国际权威杂志发表学术论文70余篇。获专利两项。相关原创性成果曾多次被Science,Current Science等杂志和媒体作专题报道。2008年全国百篇优秀博士学位论文获得者;主持国家自然科学基金项目()一项,全国优秀博士论文基金(200929)一项;国家863计划项目及多项国家自然科学基金项目主要完成人;2007年获吉林省科学技术进步一等奖。
康振辉学术论文
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 30.
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 29.
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 1.
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 3.
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 , 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 , 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 , 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 , 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 , 13652. Highlighted in Science, , 951; Current Science, 6.
企业信用信息c_____ oneself.c______是什么单词Water can c____ itself
1.(cheat )oneself:欺骗自已cheat:vt.欺骗;骗取(encourage) oneself 鼓励自已encourage:[in'kʌridʒ] 鼓励2.Water can (change) itselfchange:[tʃeindʒ]改变水能改变自已
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congratulating oneself congratulate oneself on庆幸, 感到幸运
change 水可以改变自己(的形态)。
扫描下载二维码water repellency到底是什么意思说出来丢人,本人入服装待业若干年了,但是对测试的两个术语还半懂.water repellency,和 water resistance,这两个到底是什么意思?water repellency我认为防水?对吗?water resistance我认为是水压?烦请高人指点?
water repellency防水性,名词water resistance 抗水的,形容词词性不一样
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water repellency 是表面拒水性能,一般用接触角,和溅撒水滴表征water resistance 是防水渗透性能,用静水压表征
WATER REPELLENCY1.拒水性2.防泼水性就是不沾水的性质water resistance1.抗水性2.耐水性3.防水性说明是否可以水洗,或者水洗会不会水洗掉色之类的
扫描下载二维码C 语言是什么?有没有B 语言? 是不是比如说 水 中文说水 英文 water c语言就是奇怪的“字符” ????_百度知道
C 语言是什么?有没有B 语言? 是不是比如说 水 中文说水 英文 water c语言就是奇怪的“字符” ????
是不是每种东西
都可以用C语言表达 ,比如说 鱼
, C 语言是不是一种奇怪的字符表示
????????????:
C语言(计算机语言) 是不是可以表达所有的东西就像中文一样?????,只是它的字母和发音不一一样我的困惑是?
提问者采纳
以前的程序员为了让计算机为自己工作都是用0和1来编程的。定义一个类。说多了就很啰嗦了,这样编程仍然很困难:不是火车中,就出现了高级语言。简单回答你的问题就是。但是,VB,像c语言,Delphi等等,因为必须对CPU的指令集和硬件非常熟悉才能编程,因此,为这个类设置属性。为了编程方便,称为机器语言,比如jnz和jz等,或许以后只要输入一行字就可以实现功能。比如class Bird{bool chibang=TRUE}当然随着编程语言的发现,所有的编程语言都是由二进制代码衍生而来的,就将一些固定的指令人为的写到cpu硬件中,c语言不同于人类语言。当然你所说的也可以理解为面相对象编程,手机打字,为了脱离硬件编程,VC。因为机器只能理解二进制数。可以这样说不要搞笑了,这就是汇编语言的特点
哈哈,旅途愉快
提问者评价
你真棒,学习了
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C语言是一种用于计算机可以识别的语言,是以二进制代码为基础编码语言,不是人类交流的那种语言。
c语言只是一种语言,就像是一个名字,例如java也是一种语言的名字,小李小明都只是名字而已,如果你开发了一种语言可以叫它B语言;至于c语言的功能有多强大,能否描述每一种东西,这个问题是要靠你学的有多深,语言也是有选择性的,就像我们对于不同的东西我们可以选择更适合的开发语言,就像我们所学数学时有很多符号是用的是阿拉伯数字(阿拉伯语言),也有中文
怎么好使我就用什么,可以说c语言是入门,在写大程序的时候用c语言就不那么方便了,因为c语言写代码太麻烦了
有basic语言,c就是紧接其后命名的。c语言只是编程语言,抽象表达世界,不能和中文等自然语言比较。
通俗的说 计算机语言 是人和电脑说话的一道桥梁 你想要让电脑听得懂你说话,你就要用计算机语言比如c语言
C语言之所以命名为C,是因为 C语言源自 Ken Thompson 发明的 B语言,而 B语言则源自BCPL语言。
C语言是一种计算机程序设计语言,它既具有高级语言的特点,又具有汇编语言的特点。它由美国贝尔研究所的D.M.Ritchie于1972年推出,1978年后,C语言已先后被移植到大、中、小及微型机上,它可以作为工作系统设计语言,编写系统应用程序,也可以作为应用程序设计语言,编写不依赖计算机硬件的应用程序。它的应用范围广泛,具备很强的数据处理能力,不仅仅是在软件开发上,而且各类科研都需要用到C语言,适于编写系统软件,三维,二维图形和动画,具体应用比如单片机以及嵌入式系统开发。
C是高级语言:它把高级语言的基本结构和语句与低级语言的实用性结合起来。C 语言可以像汇编语言一样对位、字节和地址进行...
c语言只是计算机的一种高级语言,也是高级语言中的一种基本语言,与编写程序有关
c语言的相关知识
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