-
1
-
-
84881029727
-
A surface enhanced Raman scattering (SERS) microdroplet detector for trace levels of crystal violet
-
COI: 1:CAS:528:DC%2BC3sXht1ShtLrF
-
Liu B, Jiang W, Wang H, Yang X, Zhang S, Yuan Y, Wu T, Du Y (2013) A surface enhanced Raman scattering (SERS) microdroplet detector for trace levels of crystal violet. Microchim Acta 180(11):997–1004. https://doi.org/10.1007/s00604-013-1026-3
-
(2013)
Microchim Acta
, vol.180
, Issue.11
, pp. 997-1004
-
-
Liu, B.1
Jiang, W.2
Wang, H.3
Yang, X.4
Zhang, S.5
Yuan, Y.6
Wu, T.7
Du, Y.8
-
2
-
-
84927564634
-
Rhodamine 6G conjugated to gold nanoparticles as labels for both SERS and fluorescence studies on live endothelial cells
-
COI: 1:CAS:528:DC%2BC2cXhtVWgsL3J
-
Jaworska A, Wojcik T, Malek K, Kwolek U, Kepczynski M, Ansary AA, Chlopicki S, Baranska M (2015) Rhodamine 6G conjugated to gold nanoparticles as labels for both SERS and fluorescence studies on live endothelial cells. Microchim Acta 182(1):119–127. https://doi.org/10.1007/s00604-014-1307-5
-
(2015)
Microchim Acta
, vol.182
, Issue.1
, pp. 119-127
-
-
Jaworska, A.1
Wojcik, T.2
Malek, K.3
Kwolek, U.4
Kepczynski, M.5
Ansary, A.A.6
Chlopicki, S.7
Baranska, M.8
-
3
-
-
85018737577
-
Bilayer composites consisting of gold nanorods and titanium dioxide as highly sensitive and self-cleaning SERS substrates
-
COI: 1:CAS:528:DC%2BC2sXnt1Cmu7Y%3D
-
Bu Y, Liu K, Hu Y, Kaneti YV, Brioude A, Jiang X, Wang H, Yu A (2017) Bilayer composites consisting of gold nanorods and titanium dioxide as highly sensitive and self-cleaning SERS substrates. Microchim Acta 184(8):2805–2813. https://doi.org/10.1007/s00604-017-2301-5
-
(2017)
Microchim Acta
, vol.184
, Issue.8
, pp. 2805-2813
-
-
Bu, Y.1
Liu, K.2
Hu, Y.3
Kaneti, Y.V.4
Brioude, A.5
Jiang, X.6
Wang, H.7
Yu, A.8
-
4
-
-
85021213687
-
Porous carbon films decorated with silver nanoparticles as a sensitive SERS substrate, and their application to virus identification
-
COI: 1:CAS:528:DC%2BC2sXhtVGnurbJ
-
Luo Z, Chen L, Liang C, Wei Q, Chen Y, Wang J (2017) Porous carbon films decorated with silver nanoparticles as a sensitive SERS substrate, and their application to virus identification. Microchim Acta 184(9):3505–3511. https://doi.org/10.1007/s00604-017-2369-y
-
(2017)
Microchim Acta
, vol.184
, Issue.9
, pp. 3505-3511
-
-
Luo, Z.1
Chen, L.2
Liang, C.3
Wei, Q.4
Chen, Y.5
Wang, J.6
-
5
-
-
84925519784
-
Ultrasensitive determination of formaldehyde in environmental waters and food samples after derivatization and using silver nanoparticle assisted SERS
-
COI: 1:CAS:528:DC%2BC2cXhvFGjurzO
-
Ma P, Liang F, Wang D, Yang Q, Ding Y, Yu Y, Gao D, Song D, Wang X (2015) Ultrasensitive determination of formaldehyde in environmental waters and food samples after derivatization and using silver nanoparticle assisted SERS. Microchim Acta 182(3):863–869. https://doi.org/10.1007/s00604-014-1400-9
-
(2015)
Microchim Acta
, vol.182
, Issue.3
, pp. 863-869
-
-
Ma, P.1
Liang, F.2
Wang, D.3
Yang, Q.4
Ding, Y.5
Yu, Y.6
Gao, D.7
Song, D.8
Wang, X.9
-
6
-
-
84903219721
-
Highly sensitive SERS probe for mercury(II) using cyclodextrin-protected silver nanoparticles functionalized with methimazole
-
COI: 1:CAS:528:DC%2BC2cXisFSlt7s%3D
-
Ma P, Liang F, Yang Q, Wang D, Sun Y, Wang X, Gao D, Song D (2014) Highly sensitive SERS probe for mercury(II) using cyclodextrin-protected silver nanoparticles functionalized with methimazole. Microchim Acta 181(9):975–981. https://doi.org/10.1007/s00604-014-1196-7
-
(2014)
Microchim Acta
, vol.181
, Issue.9
, pp. 975-981
-
-
Ma, P.1
Liang, F.2
Yang, Q.3
Wang, D.4
Sun, Y.5
Wang, X.6
Gao, D.7
Song, D.8
-
7
-
-
84931564723
-
A new SERS substrate based on silver nanoparticle functionalized polymethacrylate monoliths in a capillary, and it application to the trace determination of pesticides
-
COI: 1:CAS:528:DC%2BC2MXnvFChs7k%3D
-
Pan Y, Guo X, Zhu J, Wang X, Zhang H, Kang Y, Wu T, Du Y (2015) A new SERS substrate based on silver nanoparticle functionalized polymethacrylate monoliths in a capillary, and it application to the trace determination of pesticides. Microchim Acta 182(9):1775–1782. https://doi.org/10.1007/s00604-015-1514-8
-
(2015)
Microchim Acta
, vol.182
, Issue.9
, pp. 1775-1782
-
-
Pan, Y.1
Guo, X.2
Zhu, J.3
Wang, X.4
Zhang, H.5
Kang, Y.6
Wu, T.7
Du, Y.8
-
8
-
-
84979966651
-
Fabrication of gold nanoparticle-coated paper and its use as a sensitive substrate for quantitative SERS analysis
-
COI: 1:CAS:528:DC%2BC28Xht1GqsrbL
-
Villa JEL, Santos DP, Poppi RJ (2016) Fabrication of gold nanoparticle-coated paper and its use as a sensitive substrate for quantitative SERS analysis. Microchim Acta 183(10):2745–2752. https://doi.org/10.1007/s00604-016-1918-0
-
(2016)
Microchim Acta
, vol.183
, Issue.10
, pp. 2745-2752
-
-
Villa, J.E.L.1
Santos, D.P.2
Poppi, R.J.3
-
9
-
-
0037071380
-
Surface-enhanced Raman scattering and biophysics
-
COI: 1:CAS:528:DC%2BD38XksVymt70%3D
-
Kneipp K, Kneipp H, Itzkan I, Dasari RR, Feld MS (2002) Surface-enhanced Raman scattering and biophysics. J Phys Condens Matter 14(18):R597
-
(2002)
J Phys Condens Matter
, vol.14
, Issue.18
, pp. R597
-
-
Kneipp, K.1
Kneipp, H.2
Itzkan, I.3
Dasari, R.R.4
Feld, M.S.5
-
10
-
-
84890888347
-
Single-molecule surface-enhanced Raman scattering: current status and future perspective
-
Kim ZH (2014) Single-molecule surface-enhanced Raman scattering: current status and future perspective. Front Phys 9(1):25–30. https://doi.org/10.1007/s11467-013-0338-4
-
(2014)
Front Phys
, vol.9
, Issue.1
, pp. 25-30
-
-
Kim, Z.H.1
-
11
-
-
0031037501
-
Probing single molecules and single nanoparticles by surface-enhanced Raman scattering
-
COI: 1:CAS:528:DyaK2sXhtlGlsL4%3D
-
Nie S, Emory SR (1997) Probing single molecules and single nanoparticles by surface-enhanced Raman scattering. Science 275(5303):1102–1106. https://doi.org/10.1126/science.275.5303.1102
-
(1997)
Science
, vol.275
, Issue.5303
, pp. 1102-1106
-
-
Nie, S.1
Emory, S.R.2
-
12
-
-
1642325089
-
Single molecule detection using surface-enhanced Raman scattering (SERS)
-
COI: 1:CAS:528:DyaK2sXhsV2jtb4%3D
-
Kneipp K, Wang Y, Kneipp H, Perelman LT, Itzkan I, Dasari RR, Feld MS (1997) Single molecule detection using surface-enhanced Raman scattering (SERS). Phys Rev Lett 78(9):1667–1670
-
(1997)
Phys Rev Lett
, vol.78
, Issue.9
, pp. 1667-1670
-
-
Kneipp, K.1
Wang, Y.2
Kneipp, H.3
Perelman, L.T.4
Itzkan, I.5
Dasari, R.R.6
Feld, M.S.7
-
13
-
-
84944224120
-
SERS nanoparticles in medicine: from label-free detection to spectroscopic tagging
-
COI: 1:CAS:528:DC%2BC2MXhsVahs7rO
-
Lane LA, Qian X, Nie S (2015) SERS nanoparticles in medicine: from label-free detection to spectroscopic tagging. Chem Rev 115(19):10489–10529. https://doi.org/10.1021/acs.chemrev.5b00265
-
(2015)
Chem Rev
, vol.115
, Issue.19
, pp. 10489-10529
-
-
Lane, L.A.1
Qian, X.2
Nie, S.3
-
14
-
-
84905727992
-
Interactions between silver nanoparticles and polyvinyl alcohol nanofibers
-
Chou H, Wu C, Lin F, Rick J (2014) Interactions between silver nanoparticles and polyvinyl alcohol nanofibers. AIP Adv 4(8):087111
-
(2014)
AIP Adv
, vol.4
, Issue.8
-
-
Chou, H.1
Wu, C.2
Lin, F.3
Rick, J.4
-
15
-
-
33751107433
-
Surface-enhanced Raman scattering of flavonoids
-
COI: 1:CAS:528:DC%2BD28Xht1Gkt7nE
-
Jurasekova Z, Garcia-Ramos J, Domingo C, Sanchez-Cortes S (2006) Surface-enhanced Raman scattering of flavonoids. J Raman Spectrosc 37(11):1239–1241
-
(2006)
J Raman Spectrosc
, vol.37
, Issue.11
, pp. 1239-1241
-
-
Jurasekova, Z.1
Garcia-Ramos, J.2
Domingo, C.3
Sanchez-Cortes, S.4
-
16
-
-
0034310825
-
Adsorption and chemical modification of phenols on a silver surface
-
COI: 1:CAS:528:DC%2BD3cXotVynsLo%3D
-
Sanchez-Cortes S, Garcia-Ramos JV (2000) Adsorption and chemical modification of phenols on a silver surface. J Colloid Interface Sci 231(1):98–106. https://doi.org/10.1006/jcis.2000.7101
-
(2000)
J Colloid Interface Sci
, vol.231
, Issue.1
, pp. 98-106
-
-
Sanchez-Cortes, S.1
Garcia-Ramos, J.V.2
-
17
-
-
84902094341
-
Effect of pH on the chemical modification of quercetin and structurally related flavonoids characterized by optical (UV-visible and Raman) spectroscopy
-
COI: 1:CAS:528:DC%2BC2cXpsVSjt7Y%3D
-
Jurasekova Z, Domingo C, Garcia-Ramos JV, Sanchez-Cortes S (2014) Effect of pH on the chemical modification of quercetin and structurally related flavonoids characterized by optical (UV-visible and Raman) spectroscopy. Phys Chem Chem Phys 16(25):12802–12811. https://doi.org/10.1039/c4cp00864b
-
(2014)
Phys Chem Chem Phys
, vol.16
, Issue.25
, pp. 12802-12811
-
-
Jurasekova, Z.1
Domingo, C.2
Garcia-Ramos, J.V.3
Sanchez-Cortes, S.4
-
18
-
-
38949131470
-
Flavan-3-ols: nature, occurrence and biological activity
-
COI: 1:CAS:528:DC%2BD1cXhsFSjtbo%3D
-
Aron PM, Kennedy JA (2008) Flavan-3-ols: nature, occurrence and biological activity. Mol Nutr Food Res 52(1):79–104. https://doi.org/10.1002/mnfr.200700137
-
(2008)
Mol Nutr Food Res
, vol.52
, Issue.1
, pp. 79-104
-
-
Aron, P.M.1
Kennedy, J.A.2
-
19
-
-
38949218450
-
Green tea catechin as a chemical chaperone in cancer prevention
-
COI: 1:CAS:528:DC%2BD1cXhslentL0%3D
-
Kuzuhara T, Suganuma M, Fujiki H (2008) Green tea catechin as a chemical chaperone in cancer prevention. Cancer Lett 261(1):12–20. https://doi.org/10.1016/j.canlet.2007.10.037
-
(2008)
Cancer Lett
, vol.261
, Issue.1
, pp. 12-20
-
-
Kuzuhara, T.1
Suganuma, M.2
Fujiki, H.3
-
20
-
-
84944111715
-
Structural properties of green tea Catechins
-
COI: 1:CAS:528:DC%2BC2MXhsFSisLvJ
-
Botten D, Fugallo G, Fraternali F, Molteni C (2015) Structural properties of green tea Catechins. J Phys Chem B 119(40):12860–12867. https://doi.org/10.1021/acs.jpcb.5b08737
-
(2015)
J Phys Chem B
, vol.119
, Issue.40
, pp. 12860-12867
-
-
Botten, D.1
Fugallo, G.2
Fraternali, F.3
Molteni, C.4
-
21
-
-
2842588851
-
Adsorption and surface-enhanced Raman of dyes on silver and gold sols
-
COI: 1:CAS:528:DyaL38Xksl2nu7s%3D
-
Lee PC, Meisel D (1982) Adsorption and surface-enhanced Raman of dyes on silver and gold sols. J Phys Chem 86(17):3391–3395. https://doi.org/10.1021/j100214a025
-
(1982)
J Phys Chem
, vol.86
, Issue.17
, pp. 3391-3395
-
-
Lee, P.C.1
Meisel, D.2
-
22
-
-
77955718430
-
Surface-enhanced Raman scattering biomedical applications of plasmonic colloidal particles
-
COI: 1:CAS:528:DC%2BC3cXhtVyltr3O
-
Abalde-Cela S, Aldeanueva-Potel P, Mateo-Mateo C, Rodríguez-Lorenzo L, Alvarez-Puebla RA, Liz-Marzán LM (2010) Surface-enhanced Raman scattering biomedical applications of plasmonic colloidal particles. J R Soc Interface 7(Suppl 4):S435–S450
-
(2010)
J R Soc Interface
, vol.7
, pp. S435-S450
-
-
Abalde-Cela, S.1
Aldeanueva-Potel, P.2
Mateo-Mateo, C.3
Rodríguez-Lorenzo, L.4
Alvarez-Puebla, R.A.5
Liz-Marzán, L.M.6
-
23
-
-
0000942963
-
Spectroscopy and dynamics of nanometer-sized noble metal particles
-
COI: 1:CAS:528:DyaK1cXltFeju7Y%3D
-
Hodak JH, Martini I, Hartland GV (1998) Spectroscopy and dynamics of nanometer-sized noble metal particles. J Phys Chem B 102(36):6958–6967. https://doi.org/10.1021/jp9809787
-
(1998)
J Phys Chem B
, vol.102
, Issue.36
, pp. 6958-6967
-
-
Hodak, J.H.1
Martini, I.2
Hartland, G.V.3
-
24
-
-
0034310825
-
Adsorption and chemical modification of phenols on a silver surface
-
Sánchez-Cortés S, García-Ramos JV (2000) Adsorption and chemical modification of phenols on a silver surface. J Colloid Interface Sci 231(1):98–106. https://doi.org/10.1006/jcis.2000.7101
-
(2000)
J Colloid Interface Sci
, vol.231
, Issue.1
, pp. 98-106
-
-
Sánchez-Cortés, S.1
García-Ramos, J.V.2
-
25
-
-
83055165727
-
β-carotene radical cation addition to green tea polyphenols. Mechanism of antioxidant antagonism in peroxidizing liposomes
-
COI: 1:CAS:528:DC%2BC3MXhtlKjsrfF
-
Song L-L, Liang R, Li D-D, Xing Y-D, Han R-M, Zhang J-P, Skibsted LH (2011) β-carotene radical cation addition to green tea polyphenols. Mechanism of antioxidant antagonism in peroxidizing liposomes. J Agric Food Chem 59(23):12643–12651. https://doi.org/10.1021/jf2030456
-
(2011)
J Agric Food Chem
, vol.59
, Issue.23
, pp. 12643-12651
-
-
Song, L.-L.1
Liang, R.2
Li, D.-D.3
Xing, Y.-D.4
Han, R.-M.5
Zhang, J.-P.6
Skibsted, L.H.7
-
26
-
-
0033653650
-
A pH dependent surface-enhanced Raman scattering study of hypoxanthine
-
COI: 1:CAS:528:DC%2BD3cXksVOgs70%3D
-
Chowdhury J, Mukherjee KM, Misra T (2000) A pH dependent surface-enhanced Raman scattering study of hypoxanthine. J Raman Spectrosc 31(5):427–431
-
(2000)
J Raman Spectrosc
, vol.31
, Issue.5
, pp. 427-431
-
-
Chowdhury, J.1
Mukherjee, K.M.2
Misra, T.3
-
27
-
-
84938885696
-
Raman spectroscopy of optically trapped single biological micro-particles
-
Redding B, Schwab M, Pan YL (2015) Raman spectroscopy of optically trapped single biological micro-particles. Sensors (Basel) 15(8):19021–19046. https://doi.org/10.3390/s150819021
-
(2015)
Sensors (Basel)
, vol.15
, Issue.8
, pp. 19021-19046
-
-
Redding, B.1
Schwab, M.2
Pan, Y.L.3
-
28
-
-
85013213119
-
Stable optical trapping and sensitive characterization of nanostructures using standing-wave Raman tweezers
-
COI: 1:CAS:528:DC%2BC2sXjtVKntbY%3D
-
Wu M-Y, Ling D-X, Ling L, Li W, Li Y-q (2017) Stable optical trapping and sensitive characterization of nanostructures using standing-wave Raman tweezers. Sci Rep 7:42930. https://doi.org/10.1038/srep42930
-
(2017)
Sci Rep
, vol.7
-
-
Wu, M.-Y.1
Ling, D.-X.2
Ling, L.3
Li, W.4
Li, Y.-Q.5
-
29
-
-
0842308923
-
Optical spectroscopy of single trapped metal nanoparticles in solution
-
COI: 1:CAS:528:DC%2BD3sXpvVKgsrg%3D
-
Prikulis J, Svedberg F, Käll M, Enger J, Ramser K, Goksör M, Hanstorp D (2004) Optical spectroscopy of single trapped metal nanoparticles in solution. Nano Lett 4(1):115–118
-
(2004)
Nano Lett
, vol.4
, Issue.1
, pp. 115-118
-
-
Prikulis, J.1
Svedberg, F.2
Käll, M.3
Enger, J.4
Ramser, K.5
Goksör, M.6
Hanstorp, D.7
-
30
-
-
68149131253
-
Optical aggregation of metal nanoparticles in a microfluidic channel for surface-enhanced Raman scattering analysis
-
COI: 1:CAS:528:DC%2BD1cXhsFakurrM
-
Tong L, Righini M, Gonzalez MU, Quidant R, Käll M (2009) Optical aggregation of metal nanoparticles in a microfluidic channel for surface-enhanced Raman scattering analysis. Lab Chip 9(2):193–195
-
(2009)
Lab Chip
, vol.9
, Issue.2
, pp. 193-195
-
-
Tong, L.1
Righini, M.2
Gonzalez, M.U.3
Quidant, R.4
Käll, M.5
-
31
-
-
44749095054
-
HPLC-DAD-ESI-MS/MS analysis of polyphenols and purine alkaloids in leaves of 22 tea cultivars in China
-
COI: 1:CAS:528:DC%2BD1cXntlSntLw%3D
-
Wang D, Lu J, Miao A, Xie Z, Yang D (2008) HPLC-DAD-ESI-MS/MS analysis of polyphenols and purine alkaloids in leaves of 22 tea cultivars in China. J Food Compost Anal 21(5):361–369. https://doi.org/10.1016/j.jfca.2008.01.002
-
(2008)
J Food Compost Anal
, vol.21
, Issue.5
, pp. 361-369
-
-
Wang, D.1
Lu, J.2
Miao, A.3
Xie, Z.4
Yang, D.5
-
32
-
-
45549085854
-
Quality assessment and quantitative analysis of flavonoids from tea samples of different origins by HPLC-DAD-ESI-MS
-
COI: 1:CAS:528:DC%2BD1cXltFyqtLw%3D
-
Sultana T, Stecher G, Mayer R, Trojer L, Qureshi MN, Abel G, Popp M, Bonn GK (2008) Quality assessment and quantitative analysis of flavonoids from tea samples of different origins by HPLC-DAD-ESI-MS. J Agric Food Chem 56(10):3444–3453. https://doi.org/10.1021/jf703625r
-
(2008)
J Agric Food Chem
, vol.56
, Issue.10
, pp. 3444-3453
-
-
Sultana, T.1
Stecher, G.2
Mayer, R.3
Trojer, L.4
Qureshi, M.N.5
Abel, G.6
Popp, M.7
Bonn, G.K.8
-
33
-
-
52649108151
-
New phenolic components and chromatographic profiles of green and fermented teas
-
COI: 1:CAS:528:DC%2BD1cXpsVGrs7w%3D
-
Lin LZ, Chen P, Harnly JM (2008) New phenolic components and chromatographic profiles of green and fermented teas. J Agric Food Chem 56(17):8130–8140. https://doi.org/10.1021/jf800986s
-
(2008)
J Agric Food Chem
, vol.56
, Issue.17
, pp. 8130-8140
-
-
Lin, L.Z.1
Chen, P.2
Harnly, J.M.3
-
34
-
-
33645807616
-
Analytical separation and detection methods for flavonoids
-
de Rijke E, Out P, Niessen WM, Ariese F, Gooijer C, Brinkman UA (2006) Analytical separation and detection methods for flavonoids. J Chromatogr A 1112(1–2):31–63. https://doi.org/10.1016/j.chroma.2006.01.019
-
(2006)
J Chromatogr A
, vol.1112
, Issue.1-2
, pp. 31-63
-
-
de Rijke, E.1
Out, P.2
Niessen, W.M.3
Ariese, F.4
Gooijer, C.5
Brinkman, U.A.6
|