刑事技术
刑事技術
형사기술
FORENSIC SCIENCE AND TECHNOLOGY
2015年
1期
15-18
,共4页
李康%涂霓%李孝君%郝翔%关晨
李康%塗霓%李孝君%郝翔%關晨
리강%도예%리효군%학상%관신
手印显现%新型粉末状荧光 502%荧光光谱分析
手印顯現%新型粉末狀熒光 502%熒光光譜分析
수인현현%신형분말상형광 502%형광광보분석
fingerprint development%new fluorescent cyanoacrylate powder%fluorescent spectroscopy
目的:运用新型粉末状荧光502可一步显现非渗透性光滑客体表面潜手印。为了选择最佳的激发光源和滤光镜来观察熏显后荧光效果,本文对该粉末的荧光性能进行研究。方法使用荧光光谱仪对新型粉末状荧光502进行激发光谱和发射光谱的测试,进而选择合适的激发光源及滤光镜来进行观察和拍照。结果新型粉末状荧光502的光谱范围较宽,在波长为235nm~580nm 范围内均可进行激发,具有广谱性,其中对波长在530nm 附近的激发光具有最大峰值,即荧光强度最大,对450nm 和360nm 附近的光也具有很高的吸收峰值,斯托克斯偏移量为45nm。宏观验证实验表明,在仪器分析所得的范围内,显现出的手印效果均较好。结论运用该粉末在熏显手印后可以在紫外、紫光、蓝光、黄光、绿光范围内进行激发,斯托克斯偏移大,荧光亮度高,在观察荧光效果时能够很好的消除背景荧光的干扰,也便于选择滤光镜。手印荧光效果除了受到熏显物质荧光性能的影响外,还与激发光源的品质、滤光片的透过性能以及检材固有的发光特点、客体表面性质有关。
目的:運用新型粉末狀熒光502可一步顯現非滲透性光滑客體錶麵潛手印。為瞭選擇最佳的激髮光源和濾光鏡來觀察熏顯後熒光效果,本文對該粉末的熒光性能進行研究。方法使用熒光光譜儀對新型粉末狀熒光502進行激髮光譜和髮射光譜的測試,進而選擇閤適的激髮光源及濾光鏡來進行觀察和拍照。結果新型粉末狀熒光502的光譜範圍較寬,在波長為235nm~580nm 範圍內均可進行激髮,具有廣譜性,其中對波長在530nm 附近的激髮光具有最大峰值,即熒光彊度最大,對450nm 和360nm 附近的光也具有很高的吸收峰值,斯託剋斯偏移量為45nm。宏觀驗證實驗錶明,在儀器分析所得的範圍內,顯現齣的手印效果均較好。結論運用該粉末在熏顯手印後可以在紫外、紫光、藍光、黃光、綠光範圍內進行激髮,斯託剋斯偏移大,熒光亮度高,在觀察熒光效果時能夠很好的消除揹景熒光的榦擾,也便于選擇濾光鏡。手印熒光效果除瞭受到熏顯物質熒光性能的影響外,還與激髮光源的品質、濾光片的透過性能以及檢材固有的髮光特點、客體錶麵性質有關。
목적:운용신형분말상형광502가일보현현비삼투성광활객체표면잠수인。위료선택최가적격발광원화려광경래관찰훈현후형광효과,본문대해분말적형광성능진행연구。방법사용형광광보의대신형분말상형광502진행격발광보화발사광보적측시,진이선택합괄적격발광원급려광경래진행관찰화박조。결과신형분말상형광502적광보범위교관,재파장위235nm~580nm 범위내균가진행격발,구유엄보성,기중대파장재530nm 부근적격발광구유최대봉치,즉형광강도최대,대450nm 화360nm 부근적광야구유흔고적흡수봉치,사탁극사편이량위45nm。굉관험증실험표명,재의기분석소득적범위내,현현출적수인효과균교호。결론운용해분말재훈현수인후가이재자외、자광、람광、황광、록광범위내진행격발,사탁극사편이대,형광량도고,재관찰형광효과시능구흔호적소제배경형광적간우,야편우선택려광경。수인형광효과제료수도훈현물질형광성능적영향외,환여격발광원적품질、려광편적투과성능이급검재고유적발광특점、객체표면성질유관。
Objective This study aims to select the appropriate exciting light source and filter to visualize latent fingerprints on non-porous surface fumed with the novel fluorescent cyanoacrylate powder. Methods The appropriate light source and filter were selected by means of the fluorescence spectrometer along with both the excitation and emission spectrums decided. Results The analysis of new fluorescent cyanoacrylate powder by fluorescence spectroscopy showed that the excitation wavelength of light source was 235~580nm with the maximum peak at 530nm where the fluorescent intensity was the biggest, and also quite strong absorbance peaks were obtained at 450nm and 360nm, with 45nm Stokes shift. Verification experiments indicated that the effect of developing fingerprints was good in the range of 235~580nm. Conclusions The fingerprints fumed with the new fluorescent cyanoacrylate powder can be visualized under the light of UV, violet, blue, yellow, and green with the merits of large Stokes shift and high fluorescent intensity, easy to eliminate the interference of background fluorescence, and facilitative to select filters. The fingerprints can be visualized clearly with the fluorescence selected by comprehensive consideration of the above factors. Besides the property of fluorescent powder, the effect of developing fingerprint with fluorescence relies on the exciting light source, the filter, and the inherent luminescence characteristics of submitted exhibits and the conditions of exhibit surface.