欢迎登录材料期刊网

材料期刊网

高级检索

在含有高浓度的 HAuCl4单组份表面活性剂的溶液体系中,研究了由丙酮促进的金纳米棒晶种媒介的光化学生长和溶解。结果表明,在晶种媒介的生长溶液中,当丙酮/生长溶液之比高于0.1/25(V/V)时,高产率的金纳米棒(长径比为3.5,平均直径14 nm)能够快速形成;当丙酮/生长溶液之比等于或低于这一临界值时,在化学陈化阶段已形成的金纳米棒则在紫外光照射下溶解。在溶解过程中,金纳米棒发生一系列的形态变化,包括缩短,形成纳米球和完全溶解。进一步的紫外照射最终使溶液成为无色的初始Au(I)-CTAB络合物溶液状态。

The seed-mediated photochemical growth and dissolution of Au NRs promoted by acetone were studied in a single-component surfactant system containing high concentration of HAuCl4. The results showed that when the ratio of acetone-to-growth solution was higher than 0.1/25(V/V) in the seed-mediated growth solution, Au NRs of higher yield with an aspect ratio of 3.5 (the average diameter of 14 nm) could be rapidly formed;when the acetone-to-growth solution ratio was equal to or lower than this critical value, in contrast, Au NRs formed at chemical aging stage could be dissolved by UV light. In the process of the dissolution, Au NRs underwent a series of changes on the morphology, including the shortening, forming nanospheres and entire dissolution. Further UV irradiation finally made the solution colorless initial state of Au(I)-CTAB complex solution.

参考文献

[1] Huang X;Neretina S;El-Sayed M A .Gold nanorods:from synthesis and properties to biological and bio-medical applications[J].Advanced Materials,2009,21(48):4880-4910.
[2] Huang X;El-Sayed M A .Plasmonic photo-thermal therapy (PPTT)[J].Alexandria Journal of Medicine,2011,47(01):1-9.
[3] Bogliotti, N.;Oberleitner, B.;Di-Cicco, A.;Schmidt, F.;Florent, J.-C.;Semetey, V. .Optimizing the formation of biocompatible gold nanorods for cancer research: Functionalization, stabilization and purification[J].Journal of Colloid and Interface Science,2011(1):75-81.
[4] Huff T B;Tong L;Zhao Y.Hyperthermic effects of gold nanorods on tumor cells[J].Nanomedicine,2007(02):125-132.
[5] Rui Guo;Leyang Zhang;Hanqing Qian;Rutian Li;Xiqun Jiang;Baorui Liu .Multifunctional Nanocarriers for Cell Imaging, Drug Delivery, and Near-IR Photothermal Therapy[J].Langmuir: The ACS Journal of Surfaces and Colloids,2010(8):5428-5434.
[6] DAKRONG PISSUWAN;STELLA M. VALENZUELA;MICHAEL B. CORTIE .Prospects for Gold Nanorod Particles in Diagnostic and Therapeutic Applications[J].Biotechnology and Genetic Engineering Reviews,2008(1):93-112.
[7] Kim F;Song J H;Yang P .Photochemical synthesis of gold nanorods[J].Journal of the American Chemical Society,2002,124(48):14316-14317.
[8] Yasuro Niidome;Koji Nishioka;Hideya Kawasaki;Sunao Yamada .Rapid synthesis of gold nanorods by the combination of chemical reduction and photoirradiation processes; morphological changes depending on the growing processes[J].Chemical communications,2003(18):2376-2377.
[9] Miranda OR;Ahmadi TS .Effects of intensity and energy of CWUV light on the growth of gold nanorods[J].The journal of physical chemistry, B. Condensed matter, materials, surfaces, interfaces & biophysical,2005(33):15724-15734.
[10] Nishioka K;Niidome Y;Yamada S .Photochemical reactions of ketones to synthesize gold nanorods[J].Langmuir: The ACS Journal of Surfaces and Colloids,2007(20):10353-10356.
[11] Ahmed, M.;Narain, R. .Rapid synthesis of gold nanorods using a one-step photochemical strategy[J].Langmuir: The ACS Journal of Surfaces and Colloids,2010(23):18392-18399.
[12] 董守安,杨辅龙,何晓光,张世文,方卫.利用光化学二次生长精细控制金纳米棒的长径比[J].贵金属,2013(01):1-7.
[13] Nikoobakht B.;El-Sayed MA. .Preparation and growth mechanism of gold nanorods (NRs) using seed-mediated growth method[J].Chemistry of Materials,2003(10):1957-1962.
[14] Rodriguez-Fernandez J;Perez-Juste J;Mulvaney P;Liz-Marzan LM .Spatially-directed oxidation of gold nanoparticles by Au(III)-CTAB complexes[J].The journal of physical chemistry, B. Condensed matter, materials, surfaces, interfaces & biophysical,2005(30):14257-14261.
上一张 下一张
上一张 下一张
计量
  • 下载量()
  • 访问量()
文章评分
  • 您的评分:
  • 1
    0%
  • 2
    0%
  • 3
    0%
  • 4
    0%
  • 5
    0%