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Òø³æ (СÓÐÃûÆø)
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doudounba(½ð±Ò+10,VIP+0): 9-11 08:25
doudounba(½ð±Ò+10,VIP+0): 9-11 08:25
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Carotenoids were measured in the negative 10 to negative six twelve parties related to the concentration of electronic, vibrational spectra. The results showed that with the lower concentration, namely, conjugated ¦Ð electron delocalization expansion, the molecular structure of order has increased, a dramatic change in its performance: Raman scattering cross-section increased by four orders of magnitude (up to 10 negative 20 th power), Electronic spectra were also changed dramatically. Is not difficult to speculate, other non-linear, electronic states, vibrational states, life-energy, solar energy transfer, optical conductivity and other properties must also change dramatically. Study the molecular structure of carotenoids and orderly mechanism and related technologies to grasp the molecular structure of its performance and orderly, can enrich the molecular theory, but also to achieve high performance solar energy collection, storage, transfer and multi-vinyl molecular wire, etc. optoelectronic devices provide valuable information. Use of independent design research group within the liquid-core optical fiber Raman resonance, infrared - visible double resonance Raman techniques, fs, atomic force microscopy techniques. Study the molecular structure of carotenoids and orderly nature of the impact of its properties, including absorption, scattering, electronic states, vibrational states, energy level, life, light transfer, conductive resistance and other effects; research environment of the ¦Ð electron delocalization effect ; studies of carotenoids in order to obtain high-molecular methods.  |
2Â¥2009-09-08 15:26:23
jw227
ľ³æ (ÖøÃûдÊÖ)
¿ÎÌâ×鳤
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doudounba(½ð±Ò+15,VIP+0): 9-11 08:25
doudounba(½ð±Ò+15,VIP+0): 9-11 08:25
|
The electronic and vibrational spectra of carotenoids were measured from the concentration of 10-6 to 10-12. The results showed the orderliness of structure increased and properties was changed dramatically, with the reduction of concentration, with which extended delocalization of the conjugated ¦Ð electron. Raman scattering cross-section increased by four orders of magnitude (up to 10 -20) and electronic spectra were also changed dramatically. Therefore, other properties must also change significantly such as non-linear, electronic states, vibrational states, level liftime, light energy transfer, optical conductivity. It could enrich the molecular theory that studying on orderliness mechanism and related technologies of carotenoids£¬obtaining the impact of the structure orderliness to its properties . Moreover, It could provide valuable information for achieving light energy collection with high performance, storage, transfer and producing optoelectronic devices such as multi-vinyl molecular wire. [ Last edited by jw227 on 2009-9-8 at 17:32 ] |
3Â¥2009-09-08 17:30:42
jw227
ľ³æ (ÖøÃûдÊÖ)
¿ÎÌâ×鳤
- ·ÒëEPI: 2
- Ó¦Öú: 1 (Ó׶ùÔ°)
- ¹ó±ö: 1.06
- ½ð±Ò: 3456.8
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- Ìû×Ó: 1674
- ÔÚÏß: 293.4Сʱ
- ³æºÅ: 236869
- ×¢²á: 2006-04-03
- ÐÔ±ð: MM
- רҵ: ÌìÈ»Óлú»¯Ñ§
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doudounba(½ð±Ò+5,VIP+0): 9-11 08:26
doudounba(½ð±Ò+5,VIP+0): 9-11 08:26
| Using Raman resonance of liquid-core optical fiber independently designed by our group, infrared-visible double resonance Raman techniques, fs and atomic force microscopy techniques, the impact was studied about the structure orderliness to properties of carotenoids, which of carotenoids are including absorption, scattering, electronic states, vibrational states, energy level, lifetime, light transfer, conductive resistance and others. The impact about environment to delocalization of the ¦Ð electron and the method to obtain carotenoids with high orderliness were also studied. |
4Â¥2009-09-08 17:45:58
