| ²é¿´: 1433 | »Ø¸´: 3 | ||
| ±¾Ìû²úÉú 1 ¸ö ·ÒëEPI £¬µã»÷ÕâÀï½øÐв鿴 | ||
jsliu880Òø³æ (СÓÐÃûÆø)
|
[ÇóÖú]
ÐÞ¸ÄÓ¢ÎIJ¡¾ä
|
|
|
Ö÷±à˵ÓдíÎó"In general, the encapulation of fluorescence substance by silica can be realized by the stöber process [20,21] or reverse microemulsion method [22,23]". ÊDz»ÊÇ°Ñmethod¸ÄΪmethodsѽ¡£ Ö÷±à˵ÓдíÎó"They exhibit stability, high brightness and sensitive while were proved to be a pH sensor in basic solution". ÎÒ¸ÄΪ"They exhibit stability, high brightness and sensitive when they were used to be a pH sensor in basic solution".²»Öª¿É¶Ô Ö÷±à˵ÓдíÎó"These solutions were adjust to ionic strength from 0.1 mol/L to 0.5 mol/L". ÎÒ¸ÄΪ"These solutions were adjusted ionic strength from 0.1 mol/L to 0.5 mol/L".²»Öª¿É¶Ô Ö÷±à˵ÓдíÎó"The silica shells offer a stability vehicle, and the nanoparticles are also biocompatible, nontoxic, water soluble, no pollution and easy separated by centrifugation.". ÎÒ¸ÄΪ"The silica shells offer a stability vehicle, and they are also biocompatible, nontoxic, water soluble, no pollution and easy separated by centrifugation.".²»Öª¿É¶Ô Ö÷±à˵ÓдíÎó"The product was washing with ethanol and water several times to remove the unreacted chemicals". Õæ²»Öª´íÔÚÄÄ¡£ Ö÷±à˵ÓдíÎó"The fluorescence intensity of the B-doped silica nanoparticles strongly affected by changing pH". Õæ²»Öª´íÔÚÄÄ¡£ ÓÐÀ͸÷λ¸ßÈËÖ¸µã£¡Ð»Ð»£¡ |
»Ø¸´´ËÂ¥» ²ÂÄãϲ»¶
085600²ÄÁÏÓ뻯¹¤301·ÖÇóµ÷¼ÁԺУ
ÒѾÓÐ5È˻ظ´
-
081700£¬311£¬Çóµ÷¼Á
ÒѾÓÐ15È˻ظ´
-
Ò»Ö¾Ô¸±±¾©»¯¹¤085600 310·ÖÇóµ÷¼Á
ÒѾÓÐ18È˻ظ´
-
²ÄÁÏÓ뻯¹¤371Çóµ÷¼Á
ÒѾÓÐ14È˻ظ´
-
336²ÄÁÏÓ뻯¹¤085600Çóµ÷¼Á
ÒѾÓÐ7È˻ظ´
-
²ÄÁÏ334Çóµ÷¼Á
ÒѾÓÐ18È˻ظ´
-
331Çóµ÷¼Á
ÒѾÓÐ8È˻ظ´
-
332Çóµ÷¼Á
ÒѾÓÐ17È˻ظ´
-
Ò»Ö¾Ô¸ÄϾ©º½¿Õº½Ìì´óѧ ²ÄÁÏÓ뻯¹¤329·ÖÇóµ÷¼Á
ÒѾÓÐ4È˻ظ´
-
²ÄÁÏר˶322
ÒѾÓÐ7È˻ظ´
cean
½ð³æ (Ö°Òµ×÷¼Ò)
ŒÅÉþÒ»Ìõ
- ·ÒëEPI: 41
- Ó¦Öú: 23 (СѧÉú)
- ½ð±Ò: 53.1
- É¢½ð: 2045
- ºì»¨: 2
- Ìû×Ó: 3442
- ÔÚÏß: 578.8Сʱ
- ³æºÅ: 1147499
- ×¢²á: 2010-11-15
- רҵ: ¹«¹²¹Øϵѧ
¡¾´ð°¸¡¿Ó¦Öú»ØÌû
¡ï ¡ï
jsliu880: ½ð±Ò+2, ·ÒëEPI+1, лл 2013-08-17 11:51:55
jsliu880: ½ð±Ò+2, ·ÒëEPI+1, лл 2013-08-17 11:51:55
|
Ö÷±à˵ÓдíÎó"The product was washing with ethanol and water several times to remove the unreacted chemicals". Was washed |
2Â¥2013-08-15 15:01:56
pcmagic
ÖÁ×ðľ³æ (ÎÄ̳¾«Ó¢)
- ·ÒëEPI: 19
- Ó¦Öú: 19 (СѧÉú)
- ½ð±Ò: 20451.3
- É¢½ð: 1716
- ºì»¨: 7
- Ìû×Ó: 15802
- ÔÚÏß: 1816.1Сʱ
- ³æºÅ: 963392
- ×¢²á: 2010-03-06
- רҵ: ¼ÆËã»ú¿ÆѧµÄ»ù´¡ÀíÂÛ
¡¾´ð°¸¡¿Ó¦Öú»ØÌû
¡ï ¡ï ¡ï
jsliu880: ½ð±Ò+3, лл 2013-08-17 11:52:51
jsliu880: ½ð±Ò+3, лл 2013-08-17 11:52:51
|
Ö÷±à˵ÓдíÎó"They exhibit stability, high brightness and sensitive while were proved to be a pH sensor in basic solution". They exhibit stability, high brightness and sensitivity when used as pH sensors in basic solution. Ö÷±à˵ÓдíÎó"These solutions were adjust to ionic strength from 0.1 mol/L to 0.5 mol/L". Ionic strength of these solutions was adjusted from 0.1 mol/L to 0.5 mol/L. Ö÷±à˵ÓдíÎó"The silica shells offer a stability vehicle, and the nanoparticles are also biocompatible, nontoxic, water soluble, no pollution and easy separated by centrifugation.". The silica shells offer a stability vehicle(stability vehicleɶÒâ˼ѽ) which endows the nanoparticles with the features of biocompatability, nontoxicity, water solubility, no pollution and easy separation by centrifugation. Ö÷±à˵ÓдíÎó"The product was washing with ethanol and water several times to remove the unreacted chemicals". The product was washED with ethanol and water several times to remove the unreacted chemicals.(ÒÒ´¼ºÍË®µÄÏ´µÓÓÐÏȺóÂ𣬻¹ÊÇÓÃÒÒ´¼Ë®ÈÜÒº£¿) Ö÷±à˵ÓдíÎó"The fluorescence intensity of the B-doped silica nanoparticles strongly affected by changing pH". The fluorescence intensity of the B-doped silica nanoparticles WAS strongly affected by pH values. |
3Â¥2013-08-15 15:55:49
phu_grassman
ÈÙÓþ°æÖ÷ (ÖªÃû×÷¼Ò)
¿ìÀÖµº¡¢²¼¼ªµºµºÖ÷
- ·ÒëEPI: 265
- Ó¦Öú: 7 (Ó׶ùÔ°)
- ¹ó±ö: 1.392
- ½ð±Ò: 7538.7
- É¢½ð: 11599
- ºì»¨: 107
- ɳ·¢: 11
- Ìû×Ó: 5611
- ÔÚÏß: 1480.2Сʱ
- ³æºÅ: 1151372
- ×¢²á: 2010-11-20
- רҵ: µç»¯Ñ§
- ¹ÜϽ: English Cafe
¡¾´ð°¸¡¿Ó¦Öú»ØÌû
¡ï ¡ï ¡ï
jsliu880: ½ð±Ò+3, лл 2013-08-17 11:53:04
jsliu880: ½ð±Ò+3, лл 2013-08-17 11:53:04
|
1. In general, the encapulation of fluorescence molecules with silica can be realized with the Stöber process [20,21] or the reverse microemulsion method [22,23]. Ó«¹âÎïÖÊÊÇChinglish°É£¬ÎÒûÔÚÎÄÏ×Öмû¹ýÕâô±íÊöµÄ£¬´ËÍâһЩ½é´ÊµÄÓ÷¨Ðè×¢Òâ¡£ 2. They exhibit good stability, high brightness and sensitivity when used as a pH sensor in the basic solution". SensitiveÊDZíʾÁéÃô¶È°É£¬ËùÒÔÒªÓÃÃû´Ê£¬Æä´Îʱ̬ÐèÇ°ºó¶ÔÓ¦¡£ 3. These solutions were adjust to ionic strength from 0.1 mol/L to 0.5 mol/L. The ionic strength of the solutions was adjusted ranging from 0.1 mol/L to 0.5 mol/L. 4. The silica shells offer a stability vehicle, and the nanoparticles are also biocompatible, nontoxic, water soluble, no pollution and easy separated by centrifugation.". ²»ÖªµÀÄãÇ°°ë¾ä±í´ïµÄÒâ˼¡£Õû¸ö¾ä×ÓÊDz»ÊǾÍÊÇҪ˵Ã÷ÕâÖÖÄÉÃ׶þÑõ»¯¹è°ü¸²µÄÓ«¹â̽Õë¾ßÓеÄÓÅÊÆ£¿ 5. The product was washing with ethanol and water several times to remove the unreacted chemicals. washed£¬Æä´ÎÏ´µÄ·½·¨µÄÃèÊöÊÇÏà¼ÌÄØ£¨waterºó¼Ósuccessively£©»¹Êǽ»Ì棨waterºó¼Óalternatively£© 6. The fluorescence intensity of the B-doped silica nanoparticles strongly affected by changing pH. The fluorescence intensity of the B-doped silica nanoparticles was greatly affected by the changing pH.Ó¦¸ÃÓñ»¶¯Óï̬¡£ |
4Â¥2013-08-15 16:09:06
120