Review of the application and mechanism of surface enhanced raman spectroscopy (sers) as biosensor for the study of biological and chemical analyzes

Vahid Eskandari; Amin Hadi

Review of the application and mechanism of surface enhanced raman spectroscopy (sers) as biosensor for the study of biological and chemical analyzes

محل انتشار: مجله مکانیک کاربردی محاسباتی، دوره: 51، شماره: 2

سال انتشار: 1399

نوع سند: مقاله ژورنالی

زبان: انگلیسی

مشاهده: 417

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https://civilica.com/doc/1202027

شناسه ملی سند علمی:

JR_JCAM-51-2_025

تاریخ نمایه سازی: 21 اردیبهشت 1400

چکیده مقاله:

Raman spectroscopy is an important method for the identification of molecules that is widely used to determine the chemical and structural properties of various materials. Many materials have special Raman spectra so that this phenomenon can it has become an effective tool for studying the structural and chemical properties of molecules. Since Raman spectroscopy can provide accurate information on the chemical and structural properties of biological compounds, this method is used in the field of science. Vital and especially in biological and medical studies is rapidly expanding. Raman is inherently weak and sometimes masked by noise and fluorescence. As a result, the study of low-concentration molecules is not feasible and the need to amplify the Raman scattering signal is clearly felt. . One of the efficient methods for studying low and even single molecular concentrations is the Surface Enhanced Raman Scattering (SERS) method. It uses gold, silver, copper and noble metal nanoparticles to enhance the Raman scattering signal. . SERS has been rapidly expanding over the past four decades, as applications for recognition in the fields of chemistry, materials sciences, biochemistry and biosciences are rapidly expanding. Advances in the manufacture of SERS-based biosensors are a major breakthrough in the detection of biological materials in which the electromagnetic field (effect) molecule is affected by the external field, this larger substitute field due to electromagnetic resonance near the metal surface is formed. Mechanisms of electromagnetic field (field effect) amplifiers mainly contribute to the development of SERS, which includes the study of detection performance, direct and indirect fabrication methods for the identification of biological and chemical analytes, Applications of biosensors, amplifiers, and SERS-based biosensor structures to detect biomolecules are briefly described.

کلیدواژه ها:

Surface Enhanced Raman Spectroscopy (SERS) ، Biological Nano-Sensor ، Biological analytes ، Chemicals ، Metal Nanoparticles

نویسندگان

Vahid Eskandari

Nanoscience and Nanotechnology Research Center, University of Kashan, Kashan, Iran

Amin Hadi

Cellular and Molecular Research Center, School of Medicine, Yasuj University of Medical Sciences, Yasuj, Iran

مراجع و منابع این مقاله:

لیست زیر مراجع و منابع استفاده شده در این مقاله را نمایش می دهد. این مراجع به صورت کاملا ماشینی و بر اساس هوش مصنوعی استخراج شده اند و لذا ممکن است دارای اشکالاتی باشند که به مرور زمان دقت استخراج این محتوا افزایش می یابد. مراجعی که مقالات مربوط به آنها در سیویلیکا نمایه شده و پیدا شده اند، به خود مقاله لینک شده اند :

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36. Campion, A.; Patanjali, K.; Chemical Society Reveiws, 1998, 27, ...
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38. Virga A, Rivolo P, Frascella F, Angelini A, Descrovi ...
39. Otto A.The ‘chemical’ (electronic) contribution to surface-enhanced Raman scattering. ...
40. Qian XM, Nie SM. Single-molecule and single-nanoparticle SERS: From ...
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66. Yu X, Wang L, Di J. Electrochemical Deposition of ...
67. Wang LR, Fang Y. IR-SERS study and theoretical analogue ...
68. Fleischmann, M.; Hendra, P.J.; McQuillan, A.J. Raman Spectra of ...
69. Michaels, A.M. Surfaced-Enhanced Raman Spectroscopy at The Single Molecule ...
70. Zhang, X.Y.; Hicks, E.M.; Zhao, J.; Schatz, G.C.; Van ...
71. L.-R. Wang and Y. Fang, "IR-SERS study and theoretical ...
72. B. Sharma, R. R. Frontiera, A.-I. Henry, E. Ringe, ...
73. J. F. Li, Y. F. Huang, Y. Ding, Z. ...
74. J. F. Betz, W. Y. Wei, Y. Cheng, I. ...
75. Zhou H, Yang D, Ivleva NP, Mircescu NE, Niessner ...
76. Cheng M L, Tsai BC, Yang J. Silver nanoparticle-treated ...
77. B anta-wright S, Steiner R. Tandem Mass Spectrometry in ...
78. Escobar-Morreale HF, Samino S, Insenser M, Vinaixa M, Luque-Ramı´rez ...
79. Njagi J, Chernov MM, Leiter JC, Andreescu S. Amperometric ...
80. Phillips TM. Measurement of Bioactive Neuropeptides Using a Chromatographic ...
81. Kondo DG, Hellem TL, Sung YH, Kim N, Jeong ...
82. Bennet B, Tomshine J, Hara S, Ciubuc J. Ultrasensitive ...
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2. Wang LR, Fang Y. Molecular and Biomolecular Spectroscopy, Spctrochimica ...
3. Vo-Dinh T.Surface-enhanced Ramanspectroscopy using metallic nanostructures, Trends in Analytical ...
4. Canamares MV, Ramos JVG., Sanchez S, Cortes SS, Castillejo ...
5. Zong C, Xu M, Xu LJ, Wei T, Ma ...
6. Downes, A. and A. Elfick (2010). “Raman spectroscopy and ...
7. Nemecek, D., et al. (2013). “Raman Spectroscopy of Proteins ...
9. A. P. Parixit Prajapati, "Raman Spectroscopy: A Versatile Tool ...
10. e. a. Steven EJ Bell, "Composition profiling of seized ...
11. M. A. Ziemann, "In situ micro-Raman spectroscopy on minerals ...
12. C. Sandalinas, "Experimental confirmation by Raman spectroscopy of a ...
13. U. S. s. ,. W. K. N. Welter, "Characterisation ...
14. R. E. Kast, "Raman spectroscopy can differentiate malignant tumors ...
15. T.Vo-Dinh, “Surface-enhanced Raman spectroscopy using metallic nanostructures”, trends in ...
16. Gui-Na Xiao, “Shi-Qing Man, Surface-enhanced Raman scattering of methylene ...
17. Ewen Smith, Geoffrey Dent,” Modern Raman Spectroscopy– A Practical ...
18. Cuiyu Jing, Yan Fang , “Experimental (SERS) and theoretical ...
19. Li-Ran Wang, Yan Fang,” IR-SERS study and theoretical analogue ...
20. Dieringer JA, Mcfarland AD, Shah NC, Stuart DA, Whitney ...
21. Virga A, Rivolo P, Frascella F, Angelini A, Descrovi ...
22. Otto A.The ‘chemical’ (electronic) contribution to surface-enhanced Raman scattering. ...
23. Qian XM, Nie SM. Single-molecule and single-nanoparticle SERS: From ...
24. Stranahan SM, Willets KA. Super-resolution optical imaging of single-molecule ...
25. Wang, L.R.; Fang, Y. Spctrochimica Acta Part A, 2006,63,614-618 ...
26. Vo-Dinh, T. Trends in Analytical Chemistry, 1998,17,557 ...
27. Ren, B.; Liu, G.K.; Lian, X.B.; Yang Z.L.; Tian ...
28. Aroca, R. Surfaced enhanced vibrational spectroscopy, John Wiley, England, ...
29. Liz-Marzán, L.M. Nanomaterials: Formation and Color. Mater. Today 2004, ...
30. Kumar, A. Raman Spectroscopy of Carbon Nanotubes Under Axial ...
31. Muniz-Miranda, M; Pagliai, M.; Cardini, G.; Schettino, V.; J.Phys.Chem.C, ...
32. Barhoumi, A.; Zhang, D.; Tam, F.; Halas, N.J.; J.Am.Chem.Soc, ...
33. Kneipp, K,; Moskovits, M.; Kneipp, H. Surfaced-Enhanced Raman Scattering, ...
34. Michaels, A.M. Surfaced-Enhanced Raman Spectroscopy at The Single Molecule ...
35. Aroca, R. Surfaced enhanced vibrational spectroscopy, John Wiley, England, ...
36. Campion, A.; Patanjali, K.; Chemical Society Reveiws, 1998, 27, ...
37. Dieringer JA, Mcfarland AD, Shah NC, Stuart DA, Whitney ...
38. Virga A, Rivolo P, Frascella F, Angelini A, Descrovi ...
39. Otto A.The ‘chemical’ (electronic) contribution to surface-enhanced Raman scattering. ...
40. Qian XM, Nie SM. Single-molecule and single-nanoparticle SERS: From ...
41. Stranahan SM, Willets KA. Super-resolution optical imaging of single-molecule ...
42. Qiu C, Bennet KE, Tomshine JR, Hara S, Ciubuc ...
43. Le Ru EC, Meyer M, Etchegoin PG. Proof of ...
44. Li H, Wang X, Yu Z. Electrochemical biosensor for ...
45. Heidbreder CA, Lacroix L, Atkins AR, Organ AJ, Murray ...
46. Fourati N, Seydou M, Zerrouki C, Singh A, Samanta ...
47. Maouche N, Ktari N, Bakas I, Fourati N, Zerrouki ...
50. Duan N, Chang B, Zhang H, Wang Z, Wu ...
51. Wang LR, Fang Y. IR-SERS study and theoretical analogue ...
52. Ren B, Liu GK, Lian XB, Yang ZL, Tian ...
53. Matricardi C, Hanske C, Garcia-Pomar JL, Langer J, Mihi ...
54. Lin KQ, Yi J, Hu S, Liu BJ, Liu ...
56- Toshima, N.; Yonezawa, T. Bimetallic Nanoparticles-Novel Materials for Chemical ...
57- You, C.C.; Chompoosor, A.; Rotello, V.M. The Biomacromolecule-Nanoparticle Interface. ...
58- Jain,P.K.;El-Sayed,I.H.;El-Sayed,M.A. Au Nanoparticles Target Cancer. Nano Today. 2007, 2, ...
59- Chen, J.; Wang, D.; Xi, J.; Au, L.; Siekkinen, ...
60- Sarkar, P.; Kumar, H.; Bar, H.; Sahoo, G.P.; De, ...
61- Petrova, H.; Lin, C.H.; Hu, M.; Chen, J.; Siekkinen, ...
62. Shrivastava S, Dash D. Label-free colorimetric estimation of proteins ...
63. Krasteva N, Besnard I, Guse B, E. Bauer R, ...
65. McLellan MJ, Li ZY, Andrew RS, Xia Y. The ...
66. Yu X, Wang L, Di J. Electrochemical Deposition of ...
67. Wang LR, Fang Y. IR-SERS study and theoretical analogue ...
68. Fleischmann, M.; Hendra, P.J.; McQuillan, A.J. Raman Spectra of ...
69. Michaels, A.M. Surfaced-Enhanced Raman Spectroscopy at The Single Molecule ...
70. Zhang, X.Y.; Hicks, E.M.; Zhao, J.; Schatz, G.C.; Van ...
71. L.-R. Wang and Y. Fang, "IR-SERS study and theoretical ...
72. B. Sharma, R. R. Frontiera, A.-I. Henry, E. Ringe, ...
73. J. F. Li, Y. F. Huang, Y. Ding, Z. ...
74. J. F. Betz, W. Y. Wei, Y. Cheng, I. ...
75. Zhou H, Yang D, Ivleva NP, Mircescu NE, Niessner ...
76. Cheng M L, Tsai BC, Yang J. Silver nanoparticle-treated ...
77. B anta-wright S, Steiner R. Tandem Mass Spectrometry in ...
78. Escobar-Morreale HF, Samino S, Insenser M, Vinaixa M, Luque-Ramı´rez ...
79. Njagi J, Chernov MM, Leiter JC, Andreescu S. Amperometric ...
80. Phillips TM. Measurement of Bioactive Neuropeptides Using a Chromatographic ...
81. Kondo DG, Hellem TL, Sung YH, Kim N, Jeong ...
82. Bennet B, Tomshine J, Hara S, Ciubuc J. Ultrasensitive ...
83. Wang C, Meloni MM, Wu X, Zhuo M, He ...
84. Su SR, Chen YY, Li KY, Fang YC, Wang ...
85. Zhou H, Yang D, Ivleva NP, Mircescu NE, Niessner ...
86. M. V. Canamares, J. V. Garica-Ramos, S. Sanchez-Cortez, M. ...
87. I. Pavel, E. McCarney, A. Elkhaled, A. Morrill, K. ...
89. P. W. Li, J. Zhang, L. Zhang, Y. J. ...
90. M. S. Kim, J. S. Kang, S. B. Park, ...
91. M. Muniz-Miranda, C. Gellini, L. Bindi, Spectrochimica Acta Patr ...
93. P. Rostron, S. Gaber, and D. Gaber, "Raman spectroscopy, ...

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