Surface-enhanced resonance Raman spectroscopy and spectroscopy study of redox-induced conformational equilibrium of cytochrome c adsorbed on DNA-modified metal electrode

The redox-induced conformational equilibrium of cytochrome c (cyt c) adsorbed on DNA-modified metal electrode and the interaction mechanism of DNA with cyt c have been studied by electrochemical, spectroscopic and spectroelectrochemical techniques. The results indicate that the external electric field induces potential-dependent coordination equilibrium of the adsorbed cyt c between its oxidized state (with native six-coordinate low-spin and non-native five-coordinate high-spin heme configuration) and its reduced state (with native six-coordinate low-spin heme configuration) on DNA-modified metal electrode. The strong interactions between DNA and cyt c induce the self-aggregation of cyt c adsorbed on DNA. The orientational distribution of cyt c adsorbed on DNA-modified metal electrode is potential-dependent, which results in the deviation from an ideal Nernstian behavior of the adsorbed cyt c at high electrode potentials. The electric-field-induced increase in the activation barrier of proton-transfer steps attributed to the rearrangement of the hydrogen bond network and the self-aggregation of cyt c upon adsorption on DNA-modified electrode strongly decrease the interfacial electron transfer rate.

Seed-mediated synthesis of branched gold nanoparticles with the assistance of citrate and their surface-enhanced Raman scattering properties

We report an easy synthesis of highly branched gold particles through a seed-mediated growth approach in the presence of citrate. The addition of citrate in the growth solution is found to be crucial for the formation of these branched gold particles. Their size can be varied from 47 to 185 nm. The length of the thumb-like branch is estimated to be between about 5 and 20 nm, and changes slightly as the particle size increases. Owing to these obtuse and short branches, their surface plasmon resonance displays a marked red-shift with respect to the normal spherical particles. These branched gold particles exhibit stronger SERS activity than the non-branched ones, which is most likely related to these unique branching features.

DNA-templated assembly and electropolymerization of aniline on gold surface

Biomolecule template gives new opportunities for the fabrication of novel materials with special features. Here we report a route to the formation of DNA-polyaniline (PAn) complex, using immobilized DNA as a template. A gold electrode was first modified with monolayer of 2-aminoethanethiol by self-assembly. Thereafter, by simply immersing the gold electrode into DNA solution, DNA molecules can be attached onto the gold surface, followed by the DNA-templated assembly and electropolymerization of protonated aniline. The electrostatic interactions between DNA and aniline can keep the aniline monomers aligning along the DNA strands. Investigations by surface plasmon resonance (SPR), electrochemistry and reflection absorption UV/Vis-Near IR spectroscopy substantially convince that PAn can be electrochemically grown around DNA template on gold surface. This work may be provides fundamental aspects for building PAn nanowires with DNA as template on solid surface if DNA molecules can be individually separated and stretched.

Surface-enhanced resonance Raman spectroscopic study of yeast iso-1-cytochrome c and its mutant

The structural stability and redox properties of yeast iso-1-cytochrome c and its mutant, F82H, were studied by surface-enhanced resonance Raman scattering (SERRS) spectroscopy. Phenylalanine, which exists at the position-82 in yeast iso-1-cytochrome c, is replaced by histidine in the mutant. The SERRS spectra of the proteins on the bare silver electrodes indicate that the mutant possesses a more stable global structure with regard to the adsorption-induced conformational alteration. The redox potential of the mutant negatively shifts by about 400 mV, relative to that of yeast iso-1-cytochrome c. This is ascribed to axial ligand switching and higher solvent accessibility of the heme iron in the mutant during the redox reactions.

表面等离子体激元共振与生物分子相互作用分析

对表面等离子体激元共振(surface plasmon resonance, SPR)的原理和在生物学研究方面的应用进行了综述。这种技术可以直接原位、实时地跟踪生物学实验研究系统, 而不需要附加参数如进行标记等手段, 具有高敏感性, 也可以连续监测吸附或解吸附过程。目前有关的应用涉及到生物学结合分析、动力学及亲和力测定、免疫识别研究、结构与活性研究和核酸研究等多个领域。

Photoluminescence of Ag nanoparticle embedded Tb3+/Ce3+ codoped NaYF4/PVP nanofibers prepared by electrospinning

Ag nanoparticle embedded NaYF4:0.05Tb center dot chi Ce/ PVP (PVP stands for poly(vinyl pyrrolidone)) composite nanofibers have been prepared by electrospinning. A field emission scanning electron microscope and x-ray diffraction have been utilized to characterize the size, morphology and structure of the as-prepared electrospun nanofibers. Obvious photoluminescence (PL) of NaYF4:0.05Tb center dot 0.05Ce/PVP electrospun nanofibers due to the efficient energy transfer from Ce3+ to Tb3+ ions is observed. The PL intensity of the electrospun nanofibers decreases gradually with the addition of Ag nanoparticles. No obvious surface plasmon resonance enhanced luminescence is observed. The reasons for the weakening of the emission intensity with the addition of Ag nanoparticles have also been discussed in this work.

Construction of the refractive index profiles for few-mode planar optical waveguides

We present a nondestructive technique to predict the refractive index profiles of isotropic planar waveguides, on which a thin gold film is deposited to as the cladding. The negative dielectric constant of the metal results in significant differences of effective indices between TE and TM modes. The two polarized modes and a surface plasmon resonance (SPR) with abundant information of the surface index can be used to construct the refractive index profiles of single-mode and two-mode waveguides at a fixed wavelength. (c) 2005 Elsevier B.V. All rights reserved.

数值模拟探针诱导表面等离子体共振耦合纳米光刻

采用有损耗介质和色散介质的二维时域有限差分方法,数值模拟了以光波长514.5 nm的p偏振基模高斯光束为入射光源,激发Kretschmann型表面等离子体共振,并通过探针的局域场增强效应实现纳米光刻的新方法——探针诱导表面等离子体共振耦合纳米光刻.分别就探针与记录层的间距以及探针针尖大小,模拟分析了不同情况下探针的局域场增强效应和记录层表面的相对电场强度振幅分布.结果表明,探针工作在接触模式时,探针的局域场增强效应最明显,记录层表面的相对电场强度振幅的对比度最大;当探针针尖距记录层5 nm时,针尖下方记录层表面的相对电场强度振幅大于光刻临界值的分布宽度与针尖尺寸相近.

飞秒激光所致金纳米粒子析出的玻璃非线性吸收

依据Z-scan技术，使用波长532nm的纳秒脉冲，研究了通过聚焦的飞秒脉冲诱导并辅以热处理得到的金纳米粒子析出的玻璃的非线性吸收．观察到金纳米粒子析出的玻璃具有饱和吸收特性．根据局域场效应，对实验结果拟合，得到在接近表面等离子体共振激发情况下，金纳米粒子三阶极化率虚部分别为Imχm^(3)=5．7×10^-7esu．玻璃样品中金纳米粒子的非线性响应主要起源于热电子贡献。

Nanosecond nonlinear absorption in Au and Ag nanoparticles precipitated glasses induced by a femtosecond laser

We obtain Au and Ag nanoparticles precipitated in glasses by irradiation of focused femtosecond pulses, and investigate the nonlinear absorptions of the glasses by using Z-scan technique with ns pulses at 532 nm. We observe the saturable absorption behavior for An nanoparticles precipitated glasses and the reverse saturable ones for Ag ones. We also obtain, by fitting to the experimental results in the light of the local field effect near and away from the surface plasmon resonance, chi(m)((3)) = 4.5 x 10(-7) and 5.9 x 10(-8) esu for m the imaginary parts of the third-order susceptibilities for Au and Ag nanoparticles, respectively. The nonlinear response of Au nanoparticles in the glass samples arises mainly from the hot-electron contribution and the saturation of the interband transitions near the surface plasmon resonance, whereas that of Ag nanoparticles in the glass samples from the interband transitions. These show that the obtained glasses can be used as optoelectronic devices suiting for different demands. (c) 2005 Elsevier B.V. All rights reserved.

Wavelength multiplexing and tuning in nano-Ag/dielectric multilayers

Multicolored optical active planes have been fabricated with magnetron sputter method coupled with selective masking technique. The plane is multilayer structured with Ag nanoparticles and TiO2 thin layer as the building blocks. It was found that the formed multilayer can be readily wavelength multiplexed by simply overlapping several nano-Ag/TiO2 layered structures, each of which may have different surface plasmon resonance wavelength. Unlike high order multiple resonances of large particles each of the multiplexing wavelengths in such a system is separately tunable. Importantly, it reveals that modification of the TiO2 layer thickness generates a fine tuning of the resonance wavelength.

Electron injection assisted phase transition in a nano-Au-VO2 junction

The semiconductor-metal transition of vanadium dioxide (VO2) thin films epitaxially grown on C-plane sapphire is studied by depositing Au nanoparticles onto the thermochromic films forming a metal-semiconductor contact, namely, a nano-Au-VO2 junction. It reveals that Au nanoparticles have a marked effect on the reduction in the phase transition temperature of VO2. A process of electron injection in which electrons flow from Au to VO2 due to the lower work function of the metal is believed to be the mechanism. The result may support the Mott-Hubbard phase transition model for VO2.

Wavelength multiplexing and tuning in nano-Ag/dielectric multilayers

Multicolored optical active planes have been fabricated with magnetron sputter method coupled with selective masking technique. The plane is multilayer structured with Ag nanoparticles and TiO2 thin layer as the building blocks. It was found that the formed multilayer can be readily wavelength multiplexed by simply overlapping several nano-Ag/TiO2 layered structures, each of which may have different surface plasmon resonance wavelength. Unlike high order multiple resonances of large particles each of the multiplexing wavelengths in such a system is separately tunable. Importantly, it reveals that modification of the TiO2 layer thickness generates a fine tuning of the resonance wavelength.

电化学SPR生物传感器的研究及应用

围绕论文题目“电化学SPR生物传感器的研究及应用”，我们将SPR传感金膜同时用作电化学研究的界面，在自行组建的电化学SPR (EC-SPR)池中进行了相关的EC-SPR研究。 本论文研究工作的主要内容包括以下几个方面： 1． 发展了一种电化学薄化控制SPR金膜厚度，优化SPR信号的方法。这种方法主要是利用在较高电位下金与氯离子发生络合反应使SPR金膜表面的金部分溶解进入溶液从而达到薄化金基底的目的。通过调节溶液中氯离子的浓度和电化学扫描的次数，可以现场调控SPR基底的金膜厚度。我们用这种处理过的金膜进行了生物分子的吸附试验，结果证明了这种处理过的金膜适用于一般的SPR分析。 2． 采用湿化学镀膜法结合光刻法制备SPR金膜微阵列，拟将用于SPR成像分析。这种方法属于湿化学法制备SPR金膜微阵列，主要是在胶体金纳米粒子的自组装膜上刻蚀出金纳米粒子的微阵列，然后用湿化学法生长出合适的金微阵列。这种方法对制备条件要求比较简单，在制备纳米金微阵列的过程中腐蚀时间比较好控制，同时催化生长出新的金面。重复试验证实了这种方法能够制备出稳定的，尺寸可控的金微阵列，有望用于SPR成像系统研究生物分子相互作用。 3． 在SPR金膜表面利用电沉积法制备了超薄的壳聚糖薄膜，并将之应用于生物分子相互作用的研究。通过一步电沉积的方法制备了超薄的壳聚糖修饰的SPR金基片，并研究了几种常见蛋白与壳聚糖薄膜的非特异性作用，进一步用鼠IgG和抗鼠IgG作为一个典型的例子研究了壳聚糖修饰膜的生物相容性。试验表明壳聚糖修饰膜有好的生物相容性。 4． 首次提出利用生物催化沉积金属纳米粒子放大SPR信号测定小分子的方法。生物小分子抗坏血酸能够还原银离子，使其在金纳米表面沉积形成金属银原子。银原子的沉积将会极大地增强SPR信号，从而实现SPR光谱对小分子抗坏血酸浓度的放大测定。每次测定后，通过电化学剥脱Ag原子，SPR芯片的表面能够完全再生。同时，剥脱的银原子的量也能够被电化学测定，这也实现了抗坏血酸的间接电化学测定。 5． 结合电化学和SPR技术表征了DNA/Zr4+多层膜在金膜表面的生长过程，并研究了这种多层膜与细胞色素c的相互作用。SPR技术被用于测定 (DNA/ Zr4+)1双层中DNA单层的有效膜厚，及其表面覆盖率。利用红外反射光谱和X-射线光电子能谱表征这种多层膜的组成。通过EC-SPR方法，这种多层膜和细胞色素c的相互作用被进一步分析。结果表明这种多层膜不仅增强了细胞色素c的固定量，而且保持了细胞色素c的生物活性。 6． 利用EC-SPR技术测定了聚苯胺支撑的双层磷脂膜中的酶促反应。通过泡囊融合法在聚苯胺表面形成HRP掺杂的磷脂双层膜。这种磷脂双层膜能够很好的保存膜内的辣根过氧化酶(HRP)的活性，同时，这种膜允许质子的跨膜传输，能够提供聚苯胺和HRP在双氧水存在下反应所需的质子，实现酶促开关控制聚苯胺氧化还原态的变化，通过SPR检测这种聚苯胺膜的氧化还原态的变化，从而达到利用SPR测定酶底物小分子的目的。 7． 开展了适配子(aptamer)的EC-SPR研究。利用亚甲基兰为外在电化学探针分子，我们设计了一种简单的、可再生的电化学方法测定小分子腺苷。结果表明这种方法对腺苷的检测具有较高的灵敏性和选择性。这种设计思路有望进一步用于构建一个可再生的SPR传感器平台，用于研究适配子与蛋白质相互作用。

SERS的基底、机理及在分子组装和生物分析中的应用研究

自表面增强Raman散射（SERS）在粗糙化的银电极上被首次发现以来，对于SERS的研究取得了很大的进展。主要集中在对SERS基底的构筑、SERS机理的解释以及SERS的应用方面，包括在表面科学及生物分析中的应用。本论文主要通过纳米合成及组装技术构筑了具有高活性、稳定性及重现性好的SERS基底，研究了SERS的电磁增强机理以及SERS在分子组装体与生物分析中的应用。关于SERS基底的构筑，我们主要合成了中空的银金纳米结构，在玻碳表面构筑了高SERS活性的银纳米簇、在水汽界面构筑了二维金纳米阵列及金纳米棒的聚集体膜作为SERS基底。我们还研究了处于金属纳米粒子-耦联分子-金属纳米粒子以及银纳米片-耦联分子-宏观金银两种三明治结构中耦联分子的SERS谱，得出存在于这两种三明治结构中的局域电磁耦合效应LSP-LSP (Localized Surface Plasmon)及LSP与宏观金银表面的表面等离子极化SPP (Surface Plamon Polartion)之间的电磁耦合效应，即LSP-SPP耦合。对于SERS的应用，我们首先研究了SERS在分子组装体方面的应用，得出分子在金属表面的吸附行为；同时利用SERS所具有的独特特征，分别研究了SERS在活体细胞以及构建适配子传感器方面的应用。具体工作如下： 1. SERS基底的构筑 采用种子调控的置换反应制备了中空的银金双金属纳米结构，研究了探针分子在其上的SERS效应; 采用静电组装的方法在玻碳表面构筑了具有SERS活性的银纳米簇；在水汽界面构筑了具有高SERS活性的二维金纳米阵列及金纳米棒的聚集体膜，同时研究了这些纳米结构作为SERS基底的特征。 2. SERS的电磁耦合增强机理 通过构筑金/银纳米粒子-耦联分子-银纳米粒子的三明治结构，研究了处于该结构中的耦联分子的SERS谱，得出存在于金银纳米粒子间的局域的表面等离子之间的耦合效应，即LSP-LSP电磁耦合；研究了处于宏观金/银-耦联分子-银纳米片的三明治结构中耦联分子的SERS谱，得出存在于这种三明治结构中的银纳米片的局域表面等离子共振与宏观金、银表面的表面等离子极化之间的电磁耦合效应，即LSP-SPP电磁耦合。 SERS在分子组装体方面的应用 首先通过SERS研究了硫醇类分子如4,4’-二巯基苯硫醚(4,4’-TBBT)在金表面的吸附，同时辅助其它表征手段如电化学、原子力等得出金属表面分子单层膜的吸附行为；通过SERS研究了该分子在银电极及银溶胶表面吸附行为的差异，得出该分子在银电极及银溶胶表面不同的吸附取向。 4. SERS在生物分析中的应用 利用SERS所具有的独特的特征，研究了染料分子在银纳米粒子上的SERS光谱及其作为光学探针在活体细胞中的应用；通过对纳米金进行适配子及Raman探针的标记构筑了对蛋白进行高灵敏度及选择性识别的SERS的适配子传感器。