Electrodeposition of Nanostructured Inorganic Semiconductors and their Solid-state Photovoltaic Cells

作为现代经济社会能源支柱的化石燃料将可能在本世纪消耗殆尽，能源的短缺和环境的恶化使得人们对清洁、可再生能源的需求越来越迫切。太阳能是一种取之不尽、用之不竭的绿色环保能源，太阳能电池是利用太阳能的有效途径，所以在最近几年里，传统硅基太阳能电池得到了极大发展。但是要大规模普及应用乃至取代传统能源，硅基太阳能电池仍然面临着较低性价比的问题；而造成该问题的根源在于其工作原理：这类太阳能电池的光生电子-空穴必须扩散至空间电荷区才能有效分离，这就要求有较长的载流子（电子/空穴）扩散长度（即寿命），于是带来了材料高纯度和完美晶型结构要求，导致半导体材料价格昂贵。这就决定了仅仅依靠传统太阳能电池材料和结构的改...The mainstay of energy sources, coal、oil and natural gas will be depleted someday in the future. The energy shortage and the environmental pollution induced by the fossil fuels makes the demands of a clean, renewable energy sources more and more urgent. Solar energy is an inexhaustible and green energy; solar cell is an effective way in solar energy utilization. Consequently, the traditional silic...学位：理学博士院系专业：化学化工学院化学系_物理化学(含化学物理)学号：1912005140307

Preparation and Photoeletrochemical Performance of CdS Quantum Dot Sensitized ZnO Nanorod Array Electrodes

Corresponding author. Email: [email protected]; Tel: +86-592-2189663[中文文摘]采用连续式离子层吸附与反应法制备了CdS量子点敏化的ZnO纳米棒电极.应用扫描电子显微镜(SEM)、X射线衍射(XRD)和透射电子显微镜(TEM)对CdS量子点/ZnO纳米棒电极的形貌、晶型和颗粒尺寸进行了分析和表征;采用光电流-电位曲线和光电流谱研究了不同CdS循环沉积次数及不同沉积浓度对复合电极的光电性能影响.结果表明,前驱体浓度都为0.1mol·L-1且沉积15次敏化后的ZnO纳米棒阵列电极光电性能最好.与单纯的ZnO纳米棒阵列电极和单纯的CdS量子点电极相比,其光电转换效率显著提高,单色光光子-电流转换效率(IPCE)在380nm处达到76%.这是因为CdS量子点可以拓宽光的吸收到可见光区,并且在所形成的界面上光生载流子更容易分离.荧光光谱实验进一步说明了光电增强的原因是,两者间形成的界面中表面态大大减少,有利于减少光生电子和空穴的复合. [英文文摘]We sensitized CdS quantum dots on a ZnO nanorod array electrode by the successive ionic layer adsorption and reaction method.Scanning electron microscopy(SEM),X-ray diffraction(XRD),and transmission electron microscopy(TEM) experiments were performed to characterize the morphology,crystalline phase,and grain size of the CdS quantum dot sensitized ZnO nanorod array electrodes.The effect of CdS deposition cycle number and the precursor concentration were studied by photocurrent-potential characteristics and photocurrent spectra. The results showed that the best photoelectrochemical performance was obtained at 0.1 mol·L-1 for both Cd2+ and S2- after 15 cycles. Meanwhile, the composite films exhibited a remarkably enhanced photoelectric conversion efficiency compared with the ZnO nanorods array films and with CdS quantum dot electrodes. The monochromatic incident photon-toelectron conversion efficiency (IPCE) was as high as 76% at 380 nm. This may be attributed to the broad light harvesting capability of CdS and the efficient separation of photogenerated carriers on its interface. The reason for this enhancement was further confirmed by a photoluminescent experiment. The results showed that sensitization with CdS quantum dots reduced the recombination of electron and hole pairs resulting in an enhancement in the photocurrent.国家自然科学基金(20433040

Charge Transport Performance of Nafion-based Redox Polymer in Atmosphere

利用三明治电池和伏安法测试了不同制备条件的Nafion基氧化还原聚合物膜在空气中的电荷传输性能.研究结果表明,混合适量聚乙二醇(PEG)的Nafion基金属联吡啶配合物｛Nafion[M(bpy)23+,PEG](M=Ru,Fe)｝膜的表观电荷传递扩散系数(Dct)达到10-6-10-7cm2·s-1,电子或空穴迁移率(μ)达到10-4-10-5cm2·V-1·s-1.在导电玻璃(ITO)电极与Nafion基氧化还原聚合物膜界面引入一层导电聚苯胺(PANI)后,降低了其接触电阻,使氧化还原聚合物膜的Dct提高至10-5-10-6cm2·s-1,μ提高至10-3-10-4cm2·V-1·s-1,且工作电流提高了近两个数量级.该固态氧化还原聚合物膜的性能比较稳定,在空气中放置30天后其Dct和μ降低得很少.The charge transport performance of the Nafion-based redox polymer films prepared under different conditions was investigated by cyclic voltammetry in the sandwiched cells.The results showed that the apparent charge transfer diffusion coefficient(Dct)of the Nafion[M(bpy)2+3,PEG(polyethylene glycol)](M=Ru or Fe)films is about 10-6-10-7 cm2·s-1 and the mobility of the electron or hole(μ)was about 10-4-10-5 cm2·V-1·s-1.In order to decrease the resistance of the interface,a polyaniline(PANI)layer was added to the interface of indium tin oxide coated conducting glass(ITO)electrode and the redox polymer.Consequentially,the Dct could be increased to about 10-5-10-6 cm2·s-1 and μ to about 10-3-10-4 cm2·V-1·s-1,and the operating current of the cells under 600 mV bias could be increased by almost 100 times.In addition,the Dct and μ of this redox polymer film had just reduced slightly after 30 d kept in atmosphere.Therefore,the redox polymer film is sufficiently stable.国家自然科学基金(20373057)资助项

Charge transport performance of Nafion-based redox polymer in atmosphere

The charge transport performance of the Nafion-based redox polymer films prepared under different conditions was investigated by cyclic voltammetry in the sandwiched cells. The results showed that the apparent charge transfer diffusion coefficient(D-a) of the Nafion[M(bpy)(3)(2+), PEG (polyethylene glycol)] (M=Ru or Fe) films is about 10(-6)-10(-7) cm(2) . s(-1) and the mobility of the electron or hole (mu) was about 10(-4)-10(-5) cm(2) . V-1 . s(-1). In order to decrease the resistance of the interface, a polyaniline (PANI) layer was added to the interface of indium tin oxide coated conducting glass (ITO) electrode and the redox polymer. Consequentially, the D-a could be increased to about 10(-5)-10(-6) cm(2) . s(-1) and mu to about 10(-3)-10(-4) cm(2) . V-1 . s(-1), and the operating current of the cells under 600 mV bias could be increased by almost 100 times. In addition, the D-a and mu of this redox polymer film had just reduced slightly after 30 d kept in atmosphere. Therefore, the redox polymer film is sufficiently stable

离子束次级辐射对春麦的诱变效应

利用中能重离子束辐照生物靶材料时产生的中子、γ射线和次级碎片等次级辐射对春麦种子进行辐照 ,然后通过田间试验和实验室的分析测定 ,得到了 M1代植株的变化 . (1 )在生物学性状中 ,穗粒数、小穗数、千粒重、穗粒重、小穗密度和有效分蘖数变异率较大 ;(2 )除 SOD活性外 ,POD活性、CAT活性、MDA含量和蛋白质含量的变异率也较大 ;(3 )休眠种子和萌发种子辐照M1代在生物学性状的变化上存在很大的差异 ;(4)两个春麦材料的辐射敏感性差异明显 .由此表明 ,兰州重离子加速器辐照终端在进行生物学实验时产生的次级辐射是可能利用的诱变

不同LET的重离子辐射对DSB诱导的影响

利用γ射线和不同LET的碳离子辐照小鼠B16黑色素瘤细胞的脱蛋白DNA ,采用脉冲场凝胶电泳结合荧光扫描技术研究了DNA双链断裂 (DSB)与LET之间的关系。结果表明 :不同LET重离子诱导的PR都随剂量的增加而增加 ,并在超过一定的剂量之后逐渐趋于一个准阈值 :而不同LET的重离子诱导的L值都与剂量呈线性关系 ;对于诱导DSB的RBE值则随着LET的增加先呈上升趋势 ,在LET超过 10 0ke μm后下降