Cysteine-cupped CdSe/CdS quantum dots as an opticalbiosensor for early skin cancer detection

American Cancer Society, Cancer facts & Figs, 2020, American Cancer Society, (2020)

B.K. Armstrong, A. Kricker, The epidemiology of UV induced skin cancer. J. Photochem. Photobiol., B 63(1–3), 8–18 (2001)

Article  Google Scholar 

J. D’Orazio, S. Jarrett, A. Amaro-Ortiz, T. Scott, UV radiation and the skin. Int. J. Mol. Sci. 14(6), 12222–12248 (2013)

Article  Google Scholar 

S. Gandini, F. Sera, M.S. Cattaruzza, P. Pasquini, R. Zanetti, C. Masini, C.F. Melchi, Meta-analysis of risk factors for cutaneous melanoma: II. Sun exposure. Eur. J. Cancer. 41(1), 45–60 (2005)

Article  Google Scholar 

A. Jemal, R. Siegel, E. Ward, Y. Hao, J. Xu, T. Murray, M.J. Thun, Cancer statistics, 2008, CA: A Cancer. J. Clin. 58(2), 71–96 (2008)

Google Scholar 

U. Leiter, U. Keim, C. Garbe, Epidemiology of skin cancer: Update 2013. Adv. Exp. Med. Biol. 810, 120–140 (2014)

Google Scholar 

H.W. Rogers, M.A. Weinstock, S.R. Feldman, B.M. Coldiron, Incidence estimate of nonmelanoma skin cancer in the United States, 2006. Arch. Dermatol. 146(3), 283–287 (2015)

Google Scholar 

Skin Cancer Foundation, Skin cancer facts & statistics. Skin. Cancer Foundation, (2019)

E.A. Fadhil, M.M. Abdullah, CdSe/ZnS core/shell for luminescent solar concentrator. Iraqi J. Sci. 61(7) 1645–1649 (2020)

S.K. Mustafa, R.K. Jamal, K.A. Aadim, Studying the effect of annealing on optical and structure properties of ZnO nanostructure prepared by laser induced plasma. Iraqi J. Sci. 60(10), 2168–2176 (2019)

C. Fink, H.A. Haenssle, F. Toberer, S. Schuh, A. Blum, Diagnostic performance of dermoscopy for cutaneous melanoma compared with visual inspection by a dermatologist: a systematic review and meta-analysis. J. Am. Acad. Dermatol. 76(4), 680–689 (2017)

Google Scholar 

N.A. Kasparian, J.K. McLoone, B. Meiser, Skin cancer-related prevention and screening behaviors: a review of the literature. J. Behav. Med. 32(5), 406–428 (2009)

Article  Google Scholar 

Y. Liu, H. Yang, Metastatic melanoma: the role of the tumor microenvironment and advances in therapy. J. Hematol. Oncol. 7(1), 27 (2014)

Google Scholar 

X. Meng, R.B. Setlow, Ultraviolet radiation and human health: mechanisms of DNA damage and repair. PhotoDermatol. PhotoImmunol. PhotoMed. 26(1), 11–18 (2010)

Google Scholar 

S.A. Oliveria, S.W. Dusza, D.L. Phelan, Biopsy practices in the evaluation of cutaneous melanoma. Arch. Dermatol. 147(6), 686–692 (2011)

Google Scholar 

E.A.A. Fadhil, M.M. Abdullah, CdSe/CdS core/shell in polyacrylamide polymer matrix for quantumdots luminescent solar concentrator. Iraqi J. Phys. 17(43), 26–32 (2019)

Article  Google Scholar 

H.N. Noori, A.F. Abdulameer, Study of the Optical properties of 3MPA CdTe and 3MPA CdTe/CdSe Quantum dots at PH 12 in different periods of Time. Iraqi J. Phys. 21(4), 77–83 (2023)

Article  Google Scholar 

J. Wang, A. Lieberman, Ultrasensitive optical detection of cancer markers. Nat. Med. 18(5), 814–817 (2012)

Google Scholar 

W.R. Algar, U.J. Krull, Quantum dots as donors in fluorescence resonance energy transfer for the bioanalysis of nucleic acids, proteins, and other biological molecules. Anal. Bioanal. Chem. 391(5), 1609–1618 (2008)

Article  Google Scholar 

A.P. Alivisatos, Semiconductor clusters, nanocrystals, and quantum dots. Science. 271(5251), 933–937 (1996)

Article  ADS  Google Scholar 

M. Bruchez, M. Moronne, P. Gin, S. Weiss, A.P. Alivisatos, Semiconductor nanocrystals as fluorescent biological labels. Science. 281(5385), 2013–2016 (1998)

Article  ADS  Google Scholar 

F. Chen, D. Gerion, Fluorescent CdSe/ZnS nanocrystal–peptide conjugates for long-term, nontoxic imaging and nuclear targeting in living cells. Nano Lett. 4(10), 1827–1832 (2004)

Article  ADS  Google Scholar 

T. Jamieson, R. Bakhshi, D. Petrova, R. Pocock, M. Imani, A.M. Seifalian, Biol. Appl. Quantum dots Biomaterials. 28(31), 4717–4732 (2007)

Google Scholar 

I.L. Medintz, H.T. Uyeda, E.R. Goldman, H. Mattoussi, Quantum dot bioconjugates for imaging, labelling and sensing. Nat. Mater. 4(6), 435–446 (2005)

Article  ADS  Google Scholar 

X. Michalet, F.F. Pinaud, L.A. Bentolila, J.M. Tsay, S. Doose, J.J. Li, S. Weiss, Quantum dots for live cells, in vivo imaging, and diagnostics. Science. 307(5709), 538–544 (2005)

Article  ADS  Google Scholar 

A.M. Smith, S. Nie, Semiconductor nanocrystals: structure, properties, and band gap engineering. Acc. Chem. Res. 43(2), 190–200 (2010)

Article  Google Scholar 

E.R. Goldman, H. Mattoussi, Quantum dot-based biosensors for detection of biological threats. J. Am. Chem. Soc. 127(18), 6744–6751 (2005)

Article  Google Scholar 

R.E. Bailey, A.M. Smith, S. Nie, Quantum dots in biology and medicine. Phys. E: Low-dimensional Syst. Nanostruct. 25(1), 1–12 (2004)

Article  ADS  Google Scholar 

X. Wu, H. Liu, J. Liu, K.N. Haley, J.A. Treadway, J.P. Larson, M.P. Bruchez, Immunofluorescent labeling of cancer marker Her2 and other cellular targets with semiconductor quantum dots. Nat. Biotechnol. 21(1), 41–46 (2003)

Article  Google Scholar 

X. Gao, Y. Cui, R.M. Levenson, L.W. Chung, S. Nie, In vivo cancer targeting and imaging with semiconductor quantum dots. Nat. Biotechnol. 22(8), 969–976 (2004)

Article  Google Scholar 

W.C. Chan, S. Nie, Quantum dot bioconjugates for ultrasensitive nonisotopic detection. Science. 281(5385), 2016–2018 (1998)

Article  ADS  Google Scholar 

R. Gill, M. Zayats, I. Willner, Semiconductor quantum dots for bioanalysis. Angew. Chem. Int. Ed. 47(40), 7602–7625 (2008)

Article  Google Scholar 

R. Freeman, I. Willner, Optical molecular sensing with semiconductor quantum dots (QDs). Chem. Soc. Rev. 41(10), 4067–4085 (2012)

Article  Google Scholar 

B.O. Dabbousi, J. Rodriguez-Viejo, F.V. Mikulec, J.R. Heine, H. Mattoussi, R. Ober, M.G. Bawendi (eds.), (CdSe) ZnS core-shell quantum dots: synthesis and characterization of a size series of highly luminescent nanocrystallites, The Journal of Physical Chemistry B, 101(46), 9463–9475(1997)

K.S.D. Jang, J.J. Song, J.W. Lee, M.H. Kim, S.H. Kim, S.W. Lee, Synthesis and Optical Properties of CdSe/CdS Core/Shell Nanocrystals with enhanced photoluminescence efficiency. Chem. Mater. 16(21), 4151–4158 (2004)

Google Scholar 

H.C. Chang, M.R. Tuchband, S.S.G. Lee, D.B.K. Kim, C.T.L. Wang, Preparation of High-Quality CdSe/CdS Core-Shell Quantum Dots with Improved Stability and Luminescence. J. Mater. Chem. 22(15), 7515–7524 (2012)

Google Scholar 

X. Wang, Q. Li, D. Zhao, Structural properties of cysteine molecules in crystalline form. J. Phys. Chem. B 119(15), 5163–5171 (2015)

Google Scholar 

S. Patel, A. Singh, Cysteine capping and its influence on the crystallographic properties of ZnO nanoparticles. J. Phys. Chem. C 121(14), 7845–7853 (2017)

Google Scholar 

A.M. Smith, S. Nie, Chemical analysis and stability of cysteine-capped nanoparticles using FE-SEM. Nano Lett. 10(1), 244–250 (2010)

Google Scholar 

J. Tauc, R. Grigorovici, A. Vancu, Optical absorption edge in Amorphous Semiconductors. Phys. Status Solidi B 15(2), 627–637 (1966)

Article  ADS  Google Scholar 

L.A. Essa, R.K. Jamal, Studying the structural and optical properties of carbon quantum dots prepared by electro–chemical method. J. Opt. 53 (2023)

O.A. Ibrabim, S.K. Mustafa, R.K. Jamal, Study of the structural and optical properties of CdS chemically prepared and used as gas sensor. J. Opt. (2024). https://doi.org/10.1007/s12596-024-01782-5

Comments (0)

No login
gif