光学技术
光學技術
광학기술
OPTICAL TECHNOLOGY
2009年
6期
868-871
,共4页
王俊%陈国庆%魏柏林%毕琳娜%武浩
王俊%陳國慶%魏柏林%畢琳娜%武浩
왕준%진국경%위백림%필림나%무호
荧光光谱%人工神经网络%日落黄%分子结构%食用色素
熒光光譜%人工神經網絡%日落黃%分子結構%食用色素
형광광보%인공신경망락%일락황%분자결구%식용색소
fluorescence spectra%artificial neural network%sunset yellow%molecular structure%edible pigment
对食用合成色素日落黄的荧光光谱进行了研究,发现在310~400nm紫外光的激励下,日落黄溶液发出强荧光,峰值荧光强度随浓度的增加先增强后减弱,且荧光谱峰位置出现明显红移.经分析认为,日落黄溶液能产生荧光是因为分子中偶氮键将一个苯环和一个萘环连接在一起,形成大共轭结构,并且取代基-SO_3Na与-OH处于萘环的对位,大大增强了日落黄分子的共轭程度,使其具有强的吸光功能,发出强荧光.另外,结合BP神经网络,通过训练好的网络对4种不同浓度的样本进行浓度预测,结果表明相对误差分别为4.269%,6.078%,4.977%和5.308%,相对标准偏差分别为0.448%,0.375%,0.419%和0.414%.实验表明,该方法具有训练速度快、预测结果准确度高等特点,有望成为一种对食用合成色素进行高效、痕量检测的有效方法.
對食用閤成色素日落黃的熒光光譜進行瞭研究,髮現在310~400nm紫外光的激勵下,日落黃溶液髮齣彊熒光,峰值熒光彊度隨濃度的增加先增彊後減弱,且熒光譜峰位置齣現明顯紅移.經分析認為,日落黃溶液能產生熒光是因為分子中偶氮鍵將一箇苯環和一箇萘環連接在一起,形成大共軛結構,併且取代基-SO_3Na與-OH處于萘環的對位,大大增彊瞭日落黃分子的共軛程度,使其具有彊的吸光功能,髮齣彊熒光.另外,結閤BP神經網絡,通過訓練好的網絡對4種不同濃度的樣本進行濃度預測,結果錶明相對誤差分彆為4.269%,6.078%,4.977%和5.308%,相對標準偏差分彆為0.448%,0.375%,0.419%和0.414%.實驗錶明,該方法具有訓練速度快、預測結果準確度高等特點,有望成為一種對食用閤成色素進行高效、痕量檢測的有效方法.
대식용합성색소일락황적형광광보진행료연구,발현재310~400nm자외광적격려하,일락황용액발출강형광,봉치형광강도수농도적증가선증강후감약,차형광보봉위치출현명현홍이.경분석인위,일락황용액능산생형광시인위분자중우담건장일개분배화일개내배련접재일기,형성대공액결구,병차취대기-SO_3Na여-OH처우내배적대위,대대증강료일락황분자적공액정도,사기구유강적흡광공능,발출강형광.령외,결합BP신경망락,통과훈련호적망락대4충불동농도적양본진행농도예측,결과표명상대오차분별위4.269%,6.078%,4.977%화5.308%,상대표준편차분별위0.448%,0.375%,0.419%화0.414%.실험표명,해방법구유훈련속도쾌、예측결과준학도고등특점,유망성위일충대식용합성색소진행고효、흔량검측적유효방법.
The fluorescence spectra of synthetic edible pigment of sunset yellow is analyzed, it is found that when the light between 310nm to 400nm is induced, the fluorescence intensity increases and then weakens with the enhancement of the concentration and appears red shift. It is considered sunset yellow solution can produce fluorescence because nitric group links a benzene ring and a naphthyl together to form a conjμgate structure locating at the contraposition of naphthyl in place of the group-SO_3Na and-OH, it greatly increases the conjugate extent of sunset yellow elements to absorb and give off fluorescence. In addition, By BP neural network, 4 different concentrations of samples is predicted, the relative errors are 4.269%,6.078%,4.977% and 5.308%.The RSDs of the results are 0.4478%,0.3752%,0.4186% and 0.4135.The methods are better than those of others in training speed and accuracy, it is a rapid and effective way to detect trace of synthetic edible pigment.
