| 查看: 763 | 回复: 0 | |||
yensh金虫 (文坛精英)
|
[交流]
NSFC-美国国家科学基金会先进感应器和基于生物启发技术(ASBIT)合作研究项目申请指南
|
|
http://www.nsfc.gov.cn/Portal0/InfoModule_396/31482.htm ????????? ?????????????????????????NSFC???????????????????NSF??????????????????????????????????????????????????????????Advanced Sensors and Bio-inspired Technologies, ASBIT????????????????????????????????????????俪???????о??????NSFC???????????????120?????????????????????????????????????з??о??????????о????á???????????÷????????NSF??????????????????????????????з??á??????????÷?????????????????????????????????????????????????????????????????о???????? ????1????????????????6?? ????2?????????????2012??1??1???2014??12??31??? ????3?????????????? ??????1??????????????????????????????й???????о???Engineering of system-level autonomy with bio-inspired attributes?? - Biological systems process comprehensive, spatially distributed information with much greater efficiencies than currently can be realized using multiple discrete state inputs and state controllers. - Next generation of engineering systems are envisioned that are autonomous, cognitive and have capabilities of self-sensing, self-monitoring, self-healing, self-renewing and self-generating. ??????2?????????????к??????????????в????о???Creation of biology inspired new materials for biosensing and response mechanisms?? - Bio-inspired multifunctional materials with distributed sensing and control capabilities could have great use in, for example, next-generation artificial skins for sustainable buildings (e.g. a breathable building skin), and intelligent mechanical systems. - Creation of extremely durable, highly ductile, self healing materials needed to develop next generation structural fuse components for earthquake-tolerant bridge concepts might be achieved through cross-disciplinary research in bioinspired technologies. - Multifunctional nanomaterials with predefined physical, chemical or biological detection characteristics are required for advanced biosensing applications. ??????3?????????????к??????????????о? ??Development bio-inspired micro- and nano-scale sensing and transduction components?? - Biological systems sense and react to their environment with great speed. - Transduction process within cells, and/or the reactions triggered by input to tactile sensors, auditory systems or visual stimuli can be used to guide design of micro- and nano-scale systems that incorporate both sensors and actuation/reaction components. - New micro- and nano-scale sensing and actuation technologies that are based on cellular or biological system transduction should feature small size, low power demand, improved functionality and enhanced reliability compared to current state of the art transducers. - Fundamental understanding and study of bio-macromolecules (proteins, peptides, etc.) confinement and orientation at the micro- and nano-interfaces is crucial for high-throughput biosensing development and applications. ??????????????? ????1???з???????????и????????????????????????е???е???3???????????????????????????????? ????2???????????????????н??????????????????Э????????????????????????????????????????????Ч??????????????????????????????????????????????????????????????????? ????????????????涨 ????????????????????????????о?????????????????涨?? ????1??????????????????????????????1?????????????????о?????? ????2?????и?????????????????????????????????????????????????????е?????????????????????????????????????????????3???????????????????????????????о????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????о??????????????????о?????????????????????????о???????????????????????1???????λ????????????????λ????????????????????涨?????2011??????????????????????????? ???????????? ????1???з???????????ISIS???????????????http://isis.nsfc.gov.cn????????? ... ???????д????????? ??????? ??????1????????д???????????????????????????????????????????????????ASBIT???????? ??????2??????????????д????д???????????????????? ??????3?????з????????????????д????????????????????????????????????NSF FastLane??????????????????????????????????鸱?????????Ч???? ????2????????????????С????????????????????????????????????????????????????????????5??????????????????????о?Э???????????????????ISIS???????? ????3??????????????д???????????????????????????????PDF??????????????????????辭?????λ???д????????????????????????λ???????????????????????2011??4??4??????????????????????????????????? (???????)?? ????4????????????????????????????????????????????????????????????????????????????????????????? ?????塢???????? ?????????????????????????????????? ???????????Email??liuxp@nsfc.gov.cn ???????????Email??chenhuai@nsfc.gov.cn ?????硡????010-62325377??010-62327017 ????Fax??010-62327004 ?????????????????????????????? ?????????Email??panqing@nsfc.gov.cn ?????硡????010-62327140 ?????????棺010-62326892 ??????????????????? ????Dr. Shih-Chi Liu, Sensors and Sensing Systems Program, CMMI, NSF ????Tel: (703) 292-7017 ????Email: sliu@nsf.gov ????Dr. Alex Simonian, Biosensing Program, CBET, NSF ????Tel: (703) 292-4826 ????Email: asimonia@nsf.gov ????????????? ???????100085???????к????????·83?? ?????????????????????????????????? |
回复此楼» 猜你喜欢
085700资源与环境308求调剂
已经有7人回复
-
265求调剂
已经有5人回复
-
279分求调剂 一志愿211
已经有3人回复
-
求调剂
已经有3人回复
-
一志愿吉林大学材料学硕321求调剂
已经有12人回复
-
286分人工智能专业请求调剂愿意跨考!
已经有3人回复
-
329求调剂
已经有5人回复
-
申请回稿延期一个月,编辑同意了。但系统上的时间没变,给编辑又写邮件了,没回复
已经有4人回复
-
材料学硕318求调剂
已经有5人回复
-
一志愿中国海洋大学,生物学,301分,求调剂
已经有6人回复
» 本主题相关商家推荐: (我也要在这里推广)
