The Twenty-third Annual International Conference on
COMPOSITES/NANO ENGINEERING (ICCE-23)
第23届国际复合材料纳米工程会议(ICCE-23)
July 12-18, 2015 Chengdu, China
(2015年7月12-18日,中国成都)
一、会议简介
The ICCE-23 will be the largest conference on composites in summer 2015 in Asia attended by over one thousand participants. We are proud to have top ICCE-23 keynote speakers including Nobel laureate lectures, such as
ICCE-23会议将会是2015年夏季亚洲地区最大的有关复合材料的国际会议之一,届时将有超过1000人参与。另外,我们聘请了多位顶级专家学者作为主讲人,主要包括如下:
Akira Suzuki Nobel Laureate Chemistry year 2010
Tsu-Wei Chou (U. Delaware) 4th highest cited person in Mat.Science in the world, editor Comp. Sci Tech
Na Lu (Univ.,North Carolina Charlotee) US NSF young investigator award, energy materials
Ram Mohan (North Carolina A&T State U.) computational expert
Joseph Nogues (UAB, Spain) physics of materials, one of top scientists in Spain
Shiren Wang (Texas A&M U.) US NSF young investigator award, nano scientist
Zhishen Wu (Southeasten U., Nanjing) PI 973 project, most prestigious funded project in China, civil Eng.
Masahiro Yoshimura (National Cheng Kung U., Tainan) over ten thousand citations
Liqun Zhang (Beijing U.Chem.Tech.) Cheung Jiang Scholar, organic inorganic chemistry
Min-Hao Zhu (SWJTU, Chengdu) Cheung Jiang Scholar, wear of composites
(1)Akira Suzuki 2010年诺贝尔奖化学奖得住;
(2)Tsu-Wei Chou 特拉华大学教授,世界上材料科学领域引用次数排名第4,Comp. Sci Tech期刊主编;
(3)Na Lu 北卡罗来纳大学教授,美国国家科学基金会青年科学家奖获得者,新能源材料;
(4)Ram Mohan 北卡罗来纳农工州立大学教授,计算材料学专家;
(5)Joseph Nogues 巴塞罗那自治大学教授,材料物理学,是西班牙顶级科学家之一;
(6)Shiren Wang 德州农工大学教授,美国国家科学基金会青年科学家奖获得者,纳米材料;
(7)Zhishen Wu 东南大学教授,973项目科学家,土木工程;
(8)Masahiro Yoshimura 台湾国立成功大学教授,超过一万的引用次数;
(9)Liqun Zhang 北京化工大学教授,有机、无机化学;
(10)Min-Hao Zhu williamhill威廉希尔官网,复合材料磨损行为。
二、论文发表渠道
After the conference, the authors have the option to expanded the two pager to become full-length papers and these papers will be reviewed for possible publication in any one of the 13 SCI-rated journals which David Hui is currently serving as editorial board members: The number in parenthesis shows the most recent impact factor for year 2013.
会议结束后,作者可以选择将两页短论文扩展成一篇正式的全文,这些文章可能会出版于任何一个David Hui任编委的SCI期刊中。以下是David Hui所任编委的SCI期刊以及相应2013年的IF:
Composites B journal (2.602 Elsevier) current five-year impact factor is 2.91
International Journal of Mechanical Sciences (2.061 Elsevier)
Journal of Nanomaterials (1.611)
Current Nanoscience (1.422)
Journal of Nanoscience and Nanotechnology (1.339)
Textile Research Journal (1.332)
Reviews on Advanced Materials Science (1.287)
International Journal of Nanotechnology (1.144)
Journal of Mining and Metallurgy section B-Metallurgy (1.135)
Journal of Computational and Theoretical Nanoscience (1.032)
Metalurgija (0.755)
Science and Engineering of Composite Materials (0.593)
Transactions of FAMENA (0.233)
Composites B journal (影响因子2.602)目前的五年影响因子为2.91
International Journal of Mechanical Sciences (影响因子2.061)
Journal of Nanomaterials (影响因子1.611)
Current Nanoscience (影响因子1.422)
Journal of Nanoscience and Nanotechnology (影响因子1.339)
Textile Research Journal (影响因子1.332)
Reviews on Advanced Materials Science (影响因子1.287)
International Journal of Nanotechnology (影响因子1.144)
Journal of Mining and Metallurgy section B-Metallurgy (影响因子1.135)
Journal of Computational and Theoretical Nanoscience (影响因子1.032)
Metalurgija (影响因子0.755)
Science and Engineering of Composite Materials (影响因子0.593)
Transactions of FAMENA (影响因子0.233)
As a worst case, such full-length papers can be quickly reviewed for publication in World Journal of Engineering, this is SCOPUS journal. Thus, 100% of all full-length papers presented at ICCE-23 will be published in these reputable journals (unless participants prefer otherwise).
在最坏的情况下,这样的长篇论文可以快速发表在世界工程杂志上,这是Scopus期刊。因此,所有ICCE-23的长篇论文将100%将发表在这些知名期刊(除非参与者更喜欢其他的)。
三、征文范围
Topics covered, but not limited to these,
Bio materials: Nano
Chemistry of Nano
Mat Chemistry
Materials: novel
Mathematical Modeling
General Applications
Infrastructure Composites
Metals
Nano Processing
Oxide Materials
Physics of Materials
Textile Composites
主题包括以下方面:
生物材料:纳米;纳米化学:材料化学和新材料;数学建模;一般应用;基础设施的复合材料;金属材料;纳米加工;氧化物材料;材料物理;纺织复合材料。
四、征文要求
Participants who plan to attend ICCE-23 should submit paper title immediately to David Hui. The ICCE-23 requires detailed two-page short paper, each page two-columns, with graphs to show results.
参加ICCE-23会议的人员应该立即提交文章题目给David Hui。ICCE-23需要详细的两页简短的论文,每一页分成两列,并且包含图表一起展示结果。
The pre-registration fee before May 1, 2015 is US $400 (currently registered student with photo ID is US $260) higher afterwards. Due to scholarship from China government, which is available to only teachers or scholars in any university in China, the registration fee for those participants in China, is, before May 1, 2015, 2000 RMB, student rate is 1000 RMB, higher afterwards.
预注册费在2015年5月1日之前是400美元(目前已注册的员工是260美元),之后会更高。由于中国政府奖学金,提供给在中国的任何一所大学教师或学者,在中国,2015年5月1日之前,注册费是2000元,对于员工是1000元人民币,之后会更高。
五、特别安排
Special feature: Nobel Laureate lecture, Akira Suzuki, ICCE Lecture Dr. Tsu-Wei Chou and over 100 Pandas in Panda zoo in Chengdu, Emei Mountain (top two most famous mountains in China, only 30 min high-speed train from Chengdu airport).
特别行程:
(1)诺贝尔奖得主Akira Suzuki的演讲;
(2)著名材料学家Tsu-Wei Chou博士的演讲;
(3)参观成都的熊猫基地;
(4)游览峨眉山(中国最著名的山之一,从成都至峨眉山只需乘坐30分钟高铁)。
ICCE-23 NOBEL LECTURE
Cross-Coupling Reactions of Organoboranes: An Easy Way for Carbon-Carbon Bonding
Akira Suzuki, Nobel Laureate of Chemistry, year 2010, Professor Emeritus, Hokkaido University, Sapporo, Japan
Reactions in which new carbon-carbon bonds are formed are key steps in building the complex, bio-active molecules developed as medicines and agrochemicals. They are also vital in developing the new generation of ingeniously-designed organic materials with novel electronic, optical or mechanical properties, likely to play a significant role in the burgeoning area of nanotechnology. The palladium-catalyzed cross-coupling reaction between organoboranes and organic halides in the presence of base was first developed about 30 years ago. It offers a powerful and general methodology for forming carbon-carbon bonds. The scope of the reaction has continued to evolve and broaden to meet modern synthetic requirements. The reaction has proved to be extremely versatile. It was first carried out between alkenyl reactants but over the years, it has extended the range to couple carbons in aryl, alkyl and alkynyl groups under a wide variety of conditions.
ICCE-23 诺贝尔讲座
有机硼烷的交叉偶联反应:一个简单的方法形成碳碳键
2010年诺贝尔化学奖得主Akira Suzuki,北海道大学名誉教授
在构建的复杂的具有生物活性的分子中,新碳碳键的形成反应是其中的关键步骤。这些具有生物活性的分子可以用于药物、农用品等方面,同时他们对于开发新的电子新一代设计巧妙的具有电学、光学、和机械性能的有机材料也是至关重要的,可能在新兴的纳米技术领域发挥重要的作用。碱存在下的钯催化交叉偶联反应的硼和有机卤化物之间的反应大约30年前就有了。它提供的一个强有力的和通用的形成碳碳键方法。反应的范围继续发展和扩大以满足现代合成的要求。这个反应有多种用途。它首先被用于形成烯基的反应物,但是随着时间的发展,它已经扩展成为可以在多种条件下在芳基、烷基、烯基等基团中偶联碳原子。
ICCE-23 ICCE LECTURE
Nanocarbons based composites and energy storage devices
Tsu-Wei Chou, Univ. of Delaware, 4th highest cited scientist in materials science in the world
Advancements in the science and technology of carbon nanotube (CNT) and graphene (GR) materials have provided the impetus for their application in multifunctional nanocomposites. This presentation will first review the state-of-the-art of characterization and modeling of continuous CNT fiber as well as CNT/GR hybrid fiber. Next, we explore the electromechanical behavior of nanocarbon based composites aiming for their applications in damage sensing and stretchable conductors. Lastly, recent advancements in CNT fiber as well as GR based supercapacitors will be discussed, which have the potential to be integrated with wearable electronic devices and composites.
ICCE-23 ICCE讲座
碳纳米基复合材料和纳米能量存储装置
Tsu-Wei Chou,特拉华大学,材料科学领域引用次数排名第四的科学家
碳纳米管(CNT)和石墨(GR)材料在科学及技术领域中的进步大大推动了多功能纳米复合材料的发展。本次报告我将首先作一个关于连续碳纳米管纤维以及碳纳米管/石墨混合纤维的制备及表征的回顾。然后,探讨碳纳米复合材料的电力学性能,有望用于破损传感器以及柔性导体。最后,讨论最近以碳纳米纤维和石墨烯复合材料为基础的超级电容器的研究进展,这种超级电容器有很大潜力成为一种可以穿戴的电子器件。
六、联系方式
联系人:David Hui 地址:美国新奥尔良大学
邮箱:Dhui@uno.edu ICCE网址:www.icce-nano.org