[1] Stewart M E, Anderton C R, Thompson L B, Maria J, Gray S K, Rogers J A, Nuzzo R G. Nanostructured plasmonic sensors. Chem Rev. 2008; 108(2): 494-521.
[2] Morarescu R, Shen H H, Vallee R A L, Maes B, Kolaric B, Damman P. Exploiting the localized surface plasmon modes in gold triangular nanoparticles for sensing applications. J Mater Chem. 2012; 22(23): 11537-11542.
[3] Major T A, Devadas M S, Lo S S, Hartland G V. Optical and dynamical properties of chemically synthesized gold nanoplates. J Phys Chem C. 2013; 117(3): 1447-1452.
[4] Jain P K, Huang X, El-Sayed I H, El-Sayed M A. Noble metals on the nanoscale: optical and photothermal properties and some applications in imaging, sensing, biology, and medicine. Accounts Chem Res. 2008: 41(12): 1578-1586.
[5] Sun M, Zhai C, Hu J, Zhu M, Pan J. Plasmon enhanced electrocatalytic oxidation of ethanol and organic contaminants on gold/copper iodide composites under visible light irradiation. J Colloid Inter Sci. 2018: 511: 110-118.
[6] Ye P, Xin W, De Rosa I, Wang Y, Goorsky M, Zheng L, Yin X, Xie Y. One-pot self-templated growth of gold nanoframes for enhanced surface-enhanced raman scattering performance. ACS Appl Mater Inter. 2020; 12(19): 22050-22057.
[7] Mohammad A M, Al-Akraa I M, El-Deab M S. Superior electrocatalysis of formic acid electro-oxidation on a platinum, gold and manganese oxide nanoparticle-based ternary catalyst. Int J Hydrogen Energ. 2018; 43(1): 139-149.
[8] Saha K, Agasti S S, Kim C, Li X, Rotello V M. Gold nanoparticles in chemical and biological sensing. Chem Rev. 2012; 112(5): 2739-2779.
[9] Dreaden E C, Alkilany A M, Huang X, Murphy C J, El-Sayed M A. The golden age: gold nanoparticles for biomedicine. Chem Soc Rev. 2012; 41(7): 2740-2779.
[10] Imaeda K, Hasegawa S, Imura K. Static and dynamic near-field measurements of high-order plasmon modes induced in a gold triangular nanoplate. J Phys Chem Lett. 2018; 9(14): 4075-4081.
[11] Jans H, Huo Q. Gold nanoparticle-enabled biological and chemical detection and analysis. Chem Soc Rev. 2012; 41: 2849-2866.
[12] Imaeda K, Hasegawa S, Imura K. Imaging of plasmonic eigen modes in gold triangular mesoplates by near-field optical microscopy. J Phys Chem C. 2018; 122(13): 7399-7409.
[13] Leonardo S, Coronado-Puchau M, Giner-Casares J J, Langer J, Liz-Marza´n L M. Monodisperse gold nanotriangles: size control, large-scale self-assembly, and performance in surface-enhanced raman scattering. ACS Nano. 2014; 8(6): 5833–5842.
[14] Hwang A, Kim E, Moon J, Lee H, Lee M, Jeong J, Lim E K, Jung J, Kang T, Kim B. Atomically flat Au nanoplate platforms enable ultraspecific attomolar detection of protein biomarkers. ACS Appl Mater Inter. 2019; 11(21): 18960-18967.
[15] Millstone J E, Wei W, Jones M R, Yoo H J, Mirkin C A. Iodide ions control seed-mediated growth of anisotropic gold nanoparticles. Nano Lett. 2008; 8(8): 2526-2529.
[16] Xin W, Severino J, De Rosa I M, Yu D, McKay J, Ye P, Yin X, Yang J M, Carlson L, Kodambaka S. One-step synthesis of tunable-size gold nanoplates on graphene multilayers. Nano Lett. 2018; 18(3): 1875-1881.
[17] Yang F, Huang J, Odoom-Wubah T, Hong Y, Du M, Sun D, Jia L, Li Q. Efficient Ag/CeO2 catalysts for CO oxidation prepared with microwave-assisted biosynthesis. Chem Eng J. 2015; 269: 105-112.
[18] Shaik F, Zhang W, Niu W. A novel photochemical method for the synthesis of Au triangular nanoplates inside nanocavity of mesoporous silica shells. J Phys Chem C. 2017; 121(17): 9572-9578.
[19] Nori N M, Abdi K, Khoshayand M R, Ahmadi S H, Lamei N, Shahverdi A R. Microwave-assisted biosynthesis of gold-silver alloy nanoparticles and determination of their Au/Ag ratio by atomic absorption spectroscopy. J Exp Nanosci. 2013; 8(4): 442-450.
[20] Personick M L, Mirkin C A. Making sense of the mayhem behind shape control in the synthesis of gold nanoparticles. J Am Chem Soc. 2013; 135(49): 18238-18247.
[21] Hormozi-Nezhad M R, Karami P, Robatjazi H. A simple shape-controlled synthesis of gold nanoparticles using nonionic surfactants. Rsc Adv. 2013; 3(21): 7726-7732.
[22] Moon S Y, Kusunose T, Sekino T. CTAB-assisted synthesis of size- and shape-controlled gold nanoparticles in SDS aqueous solution. Mater. Lett. 2009; 63(23): 2038-2040.
[23] Iravani S. Green synthesis of metal nanoparticles using plants. Green Chem. 2011; 13(10): 2638-2650.
[24] Mazdeh S K, Motamedi H, Khiavi A A, Mehrabi M R. Gold nanoparticle biosynthesis by E. coli and conjugation with streptomycin and evaluation of its antibacterial effect. Curr Nanosci. 2014; 10(4): 553-561.
[25] Huang J, Li Q, Sun D, Lu Y, Su Y, Yang X, Wang H, Wang Y, Shao W, He N, Hong J, Chen C. Biosynthesis of silver and gold nanoparticles by novel sundried Cinnamomum camphora leaf. Nanotechnology. 2007; 18(10): 105104.
[26] Shankar S S, Rai A, Ankamwar B, Singh A, Ahmad A, Sastry M. Biological synthesis of triangular gold nanoprisms. Nat Mater. 2004; 3(7): 482-488.
[27] Montes M O, Mayoral A, Deepak F L, Parsons J G, Jose-Yacaman M, Peralta-Videa J R, Gardea-Torresdey J L. Anisotropic gold nanoparticles and gold plates biosynthesis using alfalfa extracts. J Nanopart Res. 2011; 13(8): 3113-3121.
[28] Zhan G, Ke L, Li Q, Huang J, Hua D, Ibrahim A R, Sun D. Synthesis of gold nanoplates with bioreducing agent using syringe pumps: a kinetic control. Ind Eng Chem Res. 2012; 51(48): 15753-15762.
[29] Zhou Y, Lin W, Yang F, Fang W, Huang J, Li Q. Insights into formation kinetics of gold nanoparticles using the classical JMAK model. Chem Phys. 2014; 441: 23-29.
[30] Jiang X, Sun D, Zhang G, He N, Liu H, Huang J, Odoom-Wubah T, Li Q. Investigation of active biomolecules involved in the nucleation and growth of gold nanoparticles by Artocarpus heterophyllus Lam leaf extract. J Nanopart Res. 2013; 15(6): 1741.
[31] Huang J, Wang W, Lin L, Li Q, Lin W, Li M, Mann S. A general strategy for the biosynthesis of gold nanoparticles by traditional chinese medicines and their potential application as catalysts, Chem-Asian J. 2009; 4(7): 1050-1054.
[32] Ah C S, Yun Y J, Park H J, Kim W J, Ha D H, Yun W S. Size-controlled synthesis of machinable single crystalline gold nanoplates. Chem Mater. 2005; 17(22): 5558-5561.
[33] Xu X, Luo J, Liu M, Wang Y, Yi Z, Li X, Yi Y, Tang Y. The influence of edge and corner evolution on plasmon properties and resonant edge effect in gold nanoplatelets. Phys Chem Chem Phys. 2015; 17(4): 2641-2650.
[34] Xu X, Yi Z, Li X, Wang Y, Liu J, Luo J, Luo B, Yi Y, Tang Y. Tunable nanoscale confinement of energy and resonant edge effect in triangular gold nanoprisms. J Phys Chem C. 2013; 117(34): 17748-17756.