柔性表面增强拉曼散射基底研究进展
|
摘要
综述近10年柔性表面增强拉曼散射基底的研究进展。基于3类主要的柔性表面增强拉曼散射基底,对基底的制备方法、实际应用以及未来的发展趋势等方面进行了探讨。柔性表面增强拉曼散射基底具有机械性能优良、不易被损坏、成本低以及便于运输携带等优点,在生物、化学、环境及食品安全等各个领域存在着巨大的应用潜力。在实际检测中,表面增强拉曼散射可制备高灵敏度、稳定性、选择性且重现性好的活性基底。该综述对于从事柔性表面增强拉曼散射基底研究的科研人员具有一定的指导意义。
The research progress of ?exible surface–enhanced Raman scattering(SERS) substrates in recent 10 years was reviewed. Based on three main types of ?exible SERS substrates, the preparation methods, practical applications and future development trends of the substrates were discussed. The ?exible SERS substrates have the advantages of excellent mechanical properties, non-destructive, low cost and easy to transport and carry. They have great potential applications in biology, chemistry, environment and food safety. In practical detection, SERS can prepare active substrates with high sensitivity, stability, selectivity and reproducibility. This review has certain guiding signi?cance for researchers engaged in the research of ?exible SERS substrates.
The research progress of ?exible surface–enhanced Raman scattering(SERS) substrates in recent 10 years was reviewed. Based on three main types of ?exible SERS substrates, the preparation methods, practical applications and future development trends of the substrates were discussed. The ?exible SERS substrates have the advantages of excellent mechanical properties, non-destructive, low cost and easy to transport and carry. They have great potential applications in biology, chemistry, environment and food safety. In practical detection, SERS can prepare active substrates with high sensitivity, stability, selectivity and reproducibility. This review has certain guiding signi?cance for researchers engaged in the research of ?exible SERS substrates.
引文
[1]FLEISCHMANN M,HENDRA P J,MCQUILLAN A J.Raman spectra of pyridine adsorbed at a silver electrode[J].Chemical physics letters,1974,26(2):163-166.
[2]JEANMAIRE D L,DUYNE R P V.Surface Raman spectroelectrochemistry:Part I.heterocyclic,aromatic,and aliphatic amines adsorbed on the anodized silver electrode[J].Journal of electroanalytical chemistry,1977,84(1):1-20.
[3]ALBRECHT M G,CREIGHTON J A.ChemInform abstract:anomalously intense raman spectra of pypidine at a silver electrode[J].Chemischer informationsdienst,1977,8(44):163.
[4]SCHATZ G C,DUYNE R P V.Electromagnetic mechanism of surface-enhanced spectroscopy//Handbook of vibrational spectroscopy[M].Chichester:John Wiley&Sons,Ltd.,2006.
[5]VODINH T,HIROMOTO M Y K,BRGUN G M,et al.Surface enhanced Raman spectrometry for trace organic analysis[J].Analytical chemistry,1984,56(9):1 667-1 670.
[6]ZHANG R,XU B B,LIU X Q,et al.Highly efficient SERS test strips[J].Chemical communications,2012,48(47):5 913-5 915.
[7]TSENG S C,YU C C,WAN D,et al.Eco-friendly plasmonic sensors:using the photothermal effect to prepare metal nanoparticle-containing test papers for highly sensitive colorimetric detection[J].Analytical chemistry,2012,84(11):5 140-5 145.
[8]ZHU Y,LI M,YU D,et al.A novel paper rag as‘D-SERS’substrate for detection of pesticide residues at various peels[J].Talanta,2014,128:117-124.
[9]GOTTESMAN R,SHUKLA S,PERKAS N,et al.Sonochemical coating of paper by microbiocidal silver nanoparticles[J].Langmuir the acs journal of surfaces&colloids,2011,27(2):720-726.
[10]LEE C H,TIAN L,SINGAMANENI S.Paper-based SERS swab for rapid trace detection on real-world surfaces[J].Acs applied Materials&interfaces,2010,2(12):3 429-3 435.
[11]YU W W,WHITE I M.Inkjet printed surface enhanced Raman spectroscopy array on cellulose paper[J].Analytical chemistry,2010,82(23):9 626-9 630.
[12]WANG J,YANG L,LIU B,et al.Inkjet-printed silver nanoparticle paper detects airborne species from crystalline explosives and their ultratrace residues in open environment[J].Analytical chemistry,2014,86(7):3 338-3 345.
[13]WENG G,YANG Y,ZHAO J,et al.Preparation and SERSperformance of Au NP/paper strips based on inkjet printing and seed mediated growth:The effect of silver ions[J].Solid state communications,2018,272:67-73.
[14]POLAVARAPU L,PORTA A L,NOVIKOV S M,et al.Penon-paper approach toward the design of universal surface enhanced Raman scattering substrates[J].Small,2014,10(15):3 065-3 071.
[15]QU L L,LI D W,XUE J Q,et al.Batch fabrication of disposable screen printed SERS arrays[J].Lab on a chip,2012,12(5):876-881.
[16]LU G,LI H,ZHANG H.Nanoparticle-coated PDMS elastomers for enhancement of Raman scattering[J].Chemical communications,2011,47:8 560-8 562.
[17]KUMAR S,LODHI D K,GOEL P,et al.A facile method for fabrication of buckled PDMS silver nanorod arrays as active 3D SERS cages for bacterial sensing[J].Chemical communications,2015,51:12 411-12 414.
[18]LIN X,HASI W L,HAN S Q,et al.Fabrication of transparent SERS platform via interface self-assembly of gold nanorods and gel trapping technique for on-site real time detection[J].Physical chemistry chemical physics,2015,17:31 324-31 331.
[19]CHEN J,HUANG Y,KANNAN P,et al.Flexible and adhesive surface enhance Raman scattering active tape for rapid detection of pesticide residues in fruits and vegetables[J].Analytical chemistry,2016,88(4):2 149-2 155.
[20]HASELL T,LAGONIGRO L,PEACOCK A C,et al.Silver nanoparticle impregnated polycarbonate substrates for surface enhanced raman spectroscopy[J].Advanced Functional Materials,2010,18(8):1 265-1 271.
[21]CHUNG A J,HUH Y S,ERICKSON D.Large area flexible SERS active substrates using engineered nanostructures[J].Nanoscale,2011,3(7):2 903-2 908.
[22]QIAN Y,MENG G,HUANG Q,et al.Flexible membranes of Ag-nanosheet-grafted polyamide-nanofibers as effective 3DSERS substrates[J].Nanoscale,2014,6(9):4 781-4 788.
[23]SHAO J,TONG L,TANG S,et al.PLLA nanofibrous paperbased plasmonic substrate with tailored hydrophilicity for focusing SERS detection[J].Acs applied materials&interfaces,2015,7(9):5 391-5 399.
[24]SEVERYUKHINAAN,PARAKHONSKIY B V,PRIKHOZHDENKO E S,et al.Nanoplasmonic chitosan nanofibers as effective SERS substrate for detection of small molecules[J].Acs applied materials&interfaces,2015,7:15 466-15 473.
[25]KE Y,MENG G,HUANG Z,et al.Electrosprayed large-area membranes of Ag-nanocubes embedded in cellulose acetate microspheres as homogeneous SERS substrates[J].Journal of Materials chemistry c,2016,5(6):1 402-1 408.
[26]ALDEANUEVAPOTEL P,CORREADUARTE M A,ALVAREZPUEBLA R A,et al.Free-standing carbon nanotube films as optical accumulators for multiplex SERRS attomolar detection[J].Acs applied materials&interfaces,2010,2(1):19-22.
[27]SUN Y,LIU K,MIAO J,et al.Highly sensitive surface-enhanced Raman scattering substrate made from superaligned carbon nanotubes[J].Nano letters,2010,10(5):1 747-1 753.
[28]XIN W,YANG J M,LI C,et al.Novel strategy for one-pot synthesis of gold nanoplates on carbon nanotube sheet as an effective flexible SERS substrate[J].Acs appl mater interfaces,2017,9(7):6 246-6 254.
[29]THRALL E S,CROWTHER A C,YU Z,et al.R6G on graphene:high Raman detection sensitivity,yet decreased Raman crosssection[J].Nano letters,2012,12(3):1 571-1 577.
[30]XU W,LING X,XIAO J,et al.Surface enhanced Raman spectroscopy on a flat graphene surface[J].Proceedings of the National Academy of Sciences of the United States of America,2012,109(24):9 281-9 286.
[31]ZHOU Y,CHENG X,YANG J,et al.Fast and green synthesis of flexible free-standing silver nanoparticles-graphene substrates and their surface-enhanced Raman scattering activity[J].Rsc advances,2013,3:23 236-23 241.
[2]JEANMAIRE D L,DUYNE R P V.Surface Raman spectroelectrochemistry:Part I.heterocyclic,aromatic,and aliphatic amines adsorbed on the anodized silver electrode[J].Journal of electroanalytical chemistry,1977,84(1):1-20.
[3]ALBRECHT M G,CREIGHTON J A.ChemInform abstract:anomalously intense raman spectra of pypidine at a silver electrode[J].Chemischer informationsdienst,1977,8(44):163.
[4]SCHATZ G C,DUYNE R P V.Electromagnetic mechanism of surface-enhanced spectroscopy//Handbook of vibrational spectroscopy[M].Chichester:John Wiley&Sons,Ltd.,2006.
[5]VODINH T,HIROMOTO M Y K,BRGUN G M,et al.Surface enhanced Raman spectrometry for trace organic analysis[J].Analytical chemistry,1984,56(9):1 667-1 670.
[6]ZHANG R,XU B B,LIU X Q,et al.Highly efficient SERS test strips[J].Chemical communications,2012,48(47):5 913-5 915.
[7]TSENG S C,YU C C,WAN D,et al.Eco-friendly plasmonic sensors:using the photothermal effect to prepare metal nanoparticle-containing test papers for highly sensitive colorimetric detection[J].Analytical chemistry,2012,84(11):5 140-5 145.
[8]ZHU Y,LI M,YU D,et al.A novel paper rag as‘D-SERS’substrate for detection of pesticide residues at various peels[J].Talanta,2014,128:117-124.
[9]GOTTESMAN R,SHUKLA S,PERKAS N,et al.Sonochemical coating of paper by microbiocidal silver nanoparticles[J].Langmuir the acs journal of surfaces&colloids,2011,27(2):720-726.
[10]LEE C H,TIAN L,SINGAMANENI S.Paper-based SERS swab for rapid trace detection on real-world surfaces[J].Acs applied Materials&interfaces,2010,2(12):3 429-3 435.
[11]YU W W,WHITE I M.Inkjet printed surface enhanced Raman spectroscopy array on cellulose paper[J].Analytical chemistry,2010,82(23):9 626-9 630.
[12]WANG J,YANG L,LIU B,et al.Inkjet-printed silver nanoparticle paper detects airborne species from crystalline explosives and their ultratrace residues in open environment[J].Analytical chemistry,2014,86(7):3 338-3 345.
[13]WENG G,YANG Y,ZHAO J,et al.Preparation and SERSperformance of Au NP/paper strips based on inkjet printing and seed mediated growth:The effect of silver ions[J].Solid state communications,2018,272:67-73.
[14]POLAVARAPU L,PORTA A L,NOVIKOV S M,et al.Penon-paper approach toward the design of universal surface enhanced Raman scattering substrates[J].Small,2014,10(15):3 065-3 071.
[15]QU L L,LI D W,XUE J Q,et al.Batch fabrication of disposable screen printed SERS arrays[J].Lab on a chip,2012,12(5):876-881.
[16]LU G,LI H,ZHANG H.Nanoparticle-coated PDMS elastomers for enhancement of Raman scattering[J].Chemical communications,2011,47:8 560-8 562.
[17]KUMAR S,LODHI D K,GOEL P,et al.A facile method for fabrication of buckled PDMS silver nanorod arrays as active 3D SERS cages for bacterial sensing[J].Chemical communications,2015,51:12 411-12 414.
[18]LIN X,HASI W L,HAN S Q,et al.Fabrication of transparent SERS platform via interface self-assembly of gold nanorods and gel trapping technique for on-site real time detection[J].Physical chemistry chemical physics,2015,17:31 324-31 331.
[19]CHEN J,HUANG Y,KANNAN P,et al.Flexible and adhesive surface enhance Raman scattering active tape for rapid detection of pesticide residues in fruits and vegetables[J].Analytical chemistry,2016,88(4):2 149-2 155.
[20]HASELL T,LAGONIGRO L,PEACOCK A C,et al.Silver nanoparticle impregnated polycarbonate substrates for surface enhanced raman spectroscopy[J].Advanced Functional Materials,2010,18(8):1 265-1 271.
[21]CHUNG A J,HUH Y S,ERICKSON D.Large area flexible SERS active substrates using engineered nanostructures[J].Nanoscale,2011,3(7):2 903-2 908.
[22]QIAN Y,MENG G,HUANG Q,et al.Flexible membranes of Ag-nanosheet-grafted polyamide-nanofibers as effective 3DSERS substrates[J].Nanoscale,2014,6(9):4 781-4 788.
[23]SHAO J,TONG L,TANG S,et al.PLLA nanofibrous paperbased plasmonic substrate with tailored hydrophilicity for focusing SERS detection[J].Acs applied materials&interfaces,2015,7(9):5 391-5 399.
[24]SEVERYUKHINAAN,PARAKHONSKIY B V,PRIKHOZHDENKO E S,et al.Nanoplasmonic chitosan nanofibers as effective SERS substrate for detection of small molecules[J].Acs applied materials&interfaces,2015,7:15 466-15 473.
[25]KE Y,MENG G,HUANG Z,et al.Electrosprayed large-area membranes of Ag-nanocubes embedded in cellulose acetate microspheres as homogeneous SERS substrates[J].Journal of Materials chemistry c,2016,5(6):1 402-1 408.
[26]ALDEANUEVAPOTEL P,CORREADUARTE M A,ALVAREZPUEBLA R A,et al.Free-standing carbon nanotube films as optical accumulators for multiplex SERRS attomolar detection[J].Acs applied materials&interfaces,2010,2(1):19-22.
[27]SUN Y,LIU K,MIAO J,et al.Highly sensitive surface-enhanced Raman scattering substrate made from superaligned carbon nanotubes[J].Nano letters,2010,10(5):1 747-1 753.
[28]XIN W,YANG J M,LI C,et al.Novel strategy for one-pot synthesis of gold nanoplates on carbon nanotube sheet as an effective flexible SERS substrate[J].Acs appl mater interfaces,2017,9(7):6 246-6 254.
[29]THRALL E S,CROWTHER A C,YU Z,et al.R6G on graphene:high Raman detection sensitivity,yet decreased Raman crosssection[J].Nano letters,2012,12(3):1 571-1 577.
[30]XU W,LING X,XIAO J,et al.Surface enhanced Raman spectroscopy on a flat graphene surface[J].Proceedings of the National Academy of Sciences of the United States of America,2012,109(24):9 281-9 286.
[31]ZHOU Y,CHENG X,YANG J,et al.Fast and green synthesis of flexible free-standing silver nanoparticles-graphene substrates and their surface-enhanced Raman scattering activity[J].Rsc advances,2013,3:23 236-23 241.
© 2004-2018 中国地质图书馆版权所有 京ICP备05064691号 京公网安备11010802017129号 地址:北京市海淀区学院路29号 邮编:100083 电话:办公室:(+86 10)66554848;文献借阅、咨询服务、科技查新:66554700 |