在Cd(0001)基底上外延生长单原子层锗

利用超高真空低温扫描隧道显微镜(STM)技术和密度泛函理论(DFT)研究了锗(Ge)在Cd(0001)表面的薄膜生长行为和电子性质.研究发现室温下沉积在Cd(0001)表面上的Ge原子容易形成纳米尺度的团簇.当Cd衬底的温度降至100K左右,Ge原子形成单原子层厚的二维薄膜.高分辨的STM图表明Ge的单原子层具有1×1的赝晶结构.扫描隧道谱(STS)测量发现Ge的单原子层表现出金属性行为.DFT计算结果表明:Ge原子优先占据Cd(0001)衬底的六角密排空位,Ge与Cd(0001)衬底之间存在静电作用,Ge原子之间通过共价键相结合.

萘酞菁分子在Cd(0001)表面的自组装和手性特征

通过有机分子束沉积法和超高真空-低温扫描隧道显微镜研究了非手性的萘酞菁(H_(2)Pc)在Cd(0001)表面的手性特征和生长机理.研究发现:在极低的覆盖度下,每个分子都沿Cd(0001)衬底的晶向排列.随着分子的聚集,分子的叶瓣和衬底的晶向不是一致的,存在大约8°的偏差.在0.8 ML(定义1 ML为在第2层出现之前能够完全覆盖整个衬底表面的H_(2)Pc覆盖度)时,由于与衬底的不对称电荷转移,M型分子(定义M型分子叶瓣与衬底晶向成8°夹角)表现出明显的手性特征.随着覆盖率的进一步提高,H_(2)Pc分子的亚单层分子从平躺表面吸附转变为倾斜三角吸附,同时表现出不同的手性特征.在分子的第2层中,H_(2)Pc分子表现出倾斜的吸附.

Comparison of Pb and Cd adsorption to the surface coatings and surficial sediments collected in Xianghai Wetland

Surface coatings and surficial sediments were obtained in four natural waters in Xianghai Wetland in China to study the role of surface coatings and surficial sediments in controlling the transporting and cycling of heavy metals in aquatic environments. Pb and Cd adsorption to the surface coatings and surficial sediments were measured under controlled laboratory conditions(mineral salts solution with defined speciation, ionic strength 0 05 mol/L, 25℃ and pH 6 0 for surface coatings; and 0 005 mol/L CaCl 2 solution, 25℃ and pH 6 0 for surficial sediments). The Langmuir adsorption isotherm was applied to estimate equilibrium coefficients of Pb and Cd adsorption to the surface coatings and surficial sediments, and the component analyses of surface coatings and surficial sediments were also carried out. Correlation analyses between the maximum adsorption of Pb and Cd(Г max ) and the components in the surface coatings and surficial sediments suggested that there was a statistically significant trend for Pb and Cd adsorption(Г max ) to the surface coatings to increase with increasing in contents of Fe and Mn oxides in the surface coatings and surficial sediments. And the metal adsorption abilities of surface coatings were much stronger than those of surficial sediments, highlighting that in the same water, i.e. at the same pH and initial metal concentrations, the metals(such as lead and cadmium) in supernatant were feasible to be adsorbed by surface coatings than surficial sediments. The more importance of surface coatings than surficial sediments for adsorbing and cycling of heavy metals in aquatic environments was evidenced.

First-principles Calculations of H_2O Adsorption Reaction on the GaN(0001) Surface

The adsorption and decomposition of H2O on GaN（0001） surface have been explored employing density functional theory （DFT）. Two distinct adsorption features of H2O on GaN（0001） corresponding to molecular adsorption and H-OH dissociative adsorption are revealed by our calculations. The activities of the surface reactions of H2O on GaN（0001） surface are investigated. For the stepwise processes of H2O decomposition into H2 in gas phase and adsorbed O atom （H2O（g）→H2O（chem）→OH（chem） ＋ H（chem）→2H（chem） ＋ O（chem）→H2（g） ＋ O（chem））, the first and second steps are facile and can even occur at room temperature; while the last two have high barriers and thus are difficult to proceed, especially the fourth step is endothermic. In short, H2O adsorption and decomposition into H2 in gas phase and adsorbed O atom on GaN（0001） surface are exothermic by -43.98 kcal/mol.

Water adsorption on the Be(0001) surface:from monomer to trimer adsorption

In this paper, the density functional theory has been used to perform a comparative theoretical study of water monomer, dimer, trimer, and bilayer adsorptions on the Be（0001） surface. In our calculations, the adsorbed water molecules are energetically favoured adsorbed on the atop sites, and the dimer adsorption is found to be the most stable with a peak adsorption energy of - 437 meV. Further analyses have revealed that the essential bonding interaction between the water monomer and the metal substrate is the hybridization of the water 3al-like molecular orbital with the （s, P2） orbitals of the surface beryllium atoms. While in the case of the water dimer adsorption, the lbz-like orbital of the H2O molecule plays a dominant role.

The First-principles Calculations of H_2S Adsorption and Decomposition on the ZnO(0001) Surface

The adsorption and decomposition of H2S on the ZnO（0001） surface have been investigated with first-principles calculations.The results reveal that H2S is dissociatively adsorbed on the clean ZnO（0001） surface to generate HS-and hydrogen species.To our interest,as indicated by Mulliken charge and density of states of the configuration calculation,the bonding mechanism of H2S on the ZnO（0001） surface can involve the donation of charge from the ＂s lone pairs＂ into the surface and the back donation of surface electrons to H2S.Therefore,the electrons should play an important role in decomposition.Furthermore,the reactivity of H2S adsorption and further thermal decomposition reactions on the ZnO（0001） surface have also been discussed by calculating the possible reaction pathways.As expected,H2 will be easily generated during the decomposition process.

Quantitative Model for the Surface-related Electron Transfer in CdS Quantum Dots

The influence of surface S^2- dangling bonds and surface doped ions（Se^2-, Cu^2＋, and Hg^2＋） on the photoluminescence of Cd^2＋-rich CdS QDs was investigated. A quantitative model was proposed to understand the complex transfer processes of excited electrons in CdS QDs. The transfer of excited electrons from either the conduction band or the Cd^2＋-related trap-state to the surface S^2-related shallow hole trap-state is effective. However, the trap of excited electrons by surface doped ion trap-states from the Cd^2＋-related trap-state is more effective than that from the conduction band. The efficiency of trapping electrons from both the conduction band and the Cd^2＋-related trap-state can be quantitatively understood with the help of the proposed model. The results show that the transfer efficiency of excited electrons is dependent on the location of the energy-level of the relevant surface-related trap-state. The trap of excited electrons by the surface trap-state with energy-level closer to that of the conduction band is more effective, especially for the trap of excited electrons from Cd^2＋-related trap-state.

Formulation optimization of scutellarin-loaded HP-β-CD/chitosan nanoparticles using response surface methodology with Box–Behnken design

The aim of this paper is to investigate and optimize the preparation of scutellarin(SCU)-loaded HP-β-CD/chitosan(CS) nanoparticles(CD/CS-SCU-NPs). CD/CS-SCU-NPs were prepared by ionic cross-linking method and the process and formulation variables were optimized using response surface methodology(RSM) with a three-level, three factor Box–Behnken design(BBD).The independent variables were the added amounts of CS, sodium tripolyphosphate(TPP)and Pluronic F-68 during the preparation. Dependent variables(responses) were particle size and entrapment efficiency. Mathematical equations and respond surface plots were used to correlate independent and dependent variables.The preparation process and formulation variables were optimized to achieve minimum particle size and maximum entrapment efficiency by calculating the overall desirability value(OD). The optimized NP formulation was characterized for particle size, PDI, zeta potential, entrapment efficiency and in vitro drug release.According to the results, an optimized CD/CS-SCU-NP formulation was prepared. Results for particle size, PDI, zeta potential and entrapment efficiency were found to be around 200 nm,0.5, 25 mV, and 70% respectively. For in vitro study, the release of SCU from the NPs exhibited a biphasic release and was in accordance with Higuchi equation. The optimized preparation was simple with the probability for industrialization. The combination use of RSM, BBD and overall desirability values could provide a promising application for incorporating CD into CS nanoparticles as drug delivery carrier and help develop lab-scale procedures.

Photocatalytic Dissociation of CH3OH on ZnO(0001) Surface

Photocatalysis of CH3OH on the ZnO(0001) surface has been investigated by using temperature-programmed desorption (TPD) method with a 266 nm laser light. TPD results show that part of the CH3OH adsorbed on ZnO(0001) surface are in molecular form, while others are dissociated. The thermal reaction products of H2, CH3·, H2O, CO, CH2O, CO2 and CH3OH have been detected. Experiments with the UV laser light indicate that the irradiation can promote the dissociation of CH3OH/CH3O· to form CH2O, which can be fu- ture converted to HCOO- during heating or illumination. The reaction between CH3OHZn and OHad can form the H2O molecule at the Zn site. Both temperature and illumination promote the desorption of CH3· from CH3O·. The research provides a new insight into the photocatalytic reaction mechanism of CH3OH on ZnO(0001).

A DFT Study of Alkenes and Alkynes Reacting with H-GaN (0001) Surface

The addition reactions of alkenes and alkynes to the H-terminated GaN （0001） surface with a Ga dangling-bond have been studied employing periodic density functional theory （PDFT） calculations. Detailed information on the reaction pathways of these alkenes and alkynes with H-GaN （0001） surface is provided, which indicates that the reactions contain two steps separated by the metastable intermediates： elementary addition reaction and H-abstraction process. From the energy curves, the reactions are clearly viable in the cases of ethene, styrene and phenylacetylene; while for ethyne, the H-abstraction barrier is higher than the desorption barrier of the intermediate, so the adsorbed C2H2 in intermediate is more likely to be desorbed back into the gas phase than to form a stable adsorbed species. Furthermore, it is obvious that for either alkenes or alkynes, the systems substituted by phenyl have more stable intermediates because π conjugation could improve their stabilities.

Comparison of Pb,Cd Adsorption to Surface Coatings Developed in Natural Waters with that in Plant Effluents

The comparative studies of Pb and Cd adsorption to the surface coatings(Fe, Mn, Al oxides, organic materials, and associated minerals), which were developed on glass slides in five natural and two technical waters(plant effluents), were carried out under controlled laboratory conditions(mineral salts solution with defined speciation, ionic strength 0 05 mol/L, 25 ℃ and pH 6 0). The classical Langmuir adsorption isotherm was applied to estimating the equilibrium coefficients of Pb and Cd adsorption to the surface coatings. The results show that the maximum adsorption of Pb and Cd to the surface coatings mentioned above varied widely. There was a systemic increase in the maximum adsorption of Pb and Cd to the surface coatings with increasing the contents of Mn and Fe oxides in the surface coatings in significant correlation, respectively, not only highlighting the relative importance of the metal oxide fraction for Pb and Cd adsorption to the surface coatings developed in natural and technical water samples, but also implying the same adsorption mechanisms of Pb and Cd to the surface coatings developed both in natural and technical water samples.

Removal of Cd(Ⅱ) from Aqueous Solutions by Natural Freshwater Surface Coatings

Natural freshwater surface coatings(biofilms and associated minerals), which were developed in the Nanhu Lake, Changchun, P. R. China, were used as an efficient biosorbent for the removal of Cd(Ⅱ) from aqueous solutions. The batch experiments were carried out to determine the adsorption properties of Cd(Ⅱ) onto the natural surface coatings. The classical Langmuir adsorption isotherm was applied to estimating the equilibrium coefficients of Cd(Ⅱ) adsorbed on the surface coatings. The results show that the maximum adsorption capacity of the surface coatings is 434.78 μmol Cd/m2(being equal to 0.17 mmol Cd/g of surface coatings or 10.38 mmol Cd/g Fe) and the Cd(Ⅱ) removal from solution media by the natural surface coatings was shown to be strongly affected by solution pH and ion strength. The resulted information also indicates that the maximum Cd removal efficiency(CRE) was determined to be approximately 90% at initial Cd mass concentration of 0.1 mg/L(the concentration limit of Cd (Ⅱ) in wastewaters for discharge in aquatic media in Chinese legislation), and the kinetic adsorption of Cd(Ⅱ) onto the surface coatings is fast with around 70% of the total adsorption-taking place in 150 min in solution under the controlled laboratory conditions (mineral salts solution with defined speciation, ionic strength 0.05 mol/L, and 25 ℃). With the advantage of high Cd adsorption capacity, the natural surface coatings appear to be a potentially effective biosorbent for the removal and recovery of Cd (Ⅱ) from polluted water.

磁性生物炭及其老化后对Cd^(2+)的吸附性能影响

磁性生物炭(FBC)是一种具有良好吸附性能且可实现磁分离的吸附材料,但制备过程磁性前驱体用量及老化作用是否影响其结构和吸附重金属的能力却鲜有研究。以水稻秸秆和铁盐为原料制备不同铁炭质量比(1∶4、1∶2和1∶1,记作FBC-4、FBC-2、FBC-1)的FBC,比较其表面形态、官能团等理化性质,以及对Cd^(2+)的吸附性能的差异;利用自然老化和高温老化2种物理方法研究老化作用对磁性生物炭理化性质和吸附性能的影响。结果表明:与普通生物炭(BC)相比,FBC具有更大的比表面积和孔容,含氧官能团数量增多,并且出现Fe—O的特征峰,FBC-4、FBC-2、FBC-1的饱和磁化强度随着单位生物炭载铁量增加而增大,分别为0.64、2.21和17.69 A·m^(2)/kg;BC和FBC对Cd^(2+)吸附等温线和动力学曲线均符合Langmuir方程和准二级动力学方程,拟合出的平衡吸附量和理论最大吸附量关系为FBC-1>FBC-4>FBC-2>BC,即磁改性可以提高对Cd^(2+)的平衡吸附量,且FBC-1对Cd^(2+)的吸附能力最强;FBC-1经过2个月的自然老化和高温老化后,比表面积分别下降45.8%和36.4%,平均孔径分别增加72.7%和43.2%,饱和磁化强度分别增加至33.53和26.65 A·m^(2)/kg;老化作用会降低磁性生物炭对Cd^(2+)的吸附能力,其平衡吸附量由老化前的36.97 mg/g减小至30.97 mg/g(自然老化)和28.22 mg/g(高温老化),理论最大吸附量由63.80 mg/g分别下降至46.68和40.29mg/g,相比于自然老化,高温老化作用对磁性生物炭Cd^(2+)的吸附性能的抑制作用更明显。

Temperature dependence of surface and structure properties of ZnCdO film

Zn1-xCdx O films are grown on c-sapphire substrates by laser molecular beam epitaxy（LMBE） at different temperatures. Their crystallographic structures, compositions, surface electronic structures are investigated. The a-axis lattice constant of Zn0.95Cd0.05 O is 3.20. Moreover, the epitaxial relationship shows a 30°-in-plane rotation of the film with respect to the c-sapphire substrate. When the substrate temperatures arrives at 500℃, the in situ reflection high-energy electron diffraction（RHEED） pattern of Zn Cd O film shows sharp streaky pattern. The maximum Cd content of Zn Cd O film grown at low substrate temperatures increases up to about 29.6 at.%, which is close to that of the ceramic target. In situ ultraviolet photoelectron spectroscopy（UPS） measurements demonstrate that Zn Cd O film exhibits intense peaks at 4.7 e V and 10.7 e V below the Fermi level, which are assigned to the O 2p and Zn 3p states. Energetic distance between Zn 3d and Cd 4d is 0.60 e V. Above 470 nm, the thin film shows excellent optical transmission.

低覆盖度下五螺烯分子在Cd(0001)表面的STM研究

利用超高真空-低温扫描隧道显微镜(STM)在Cd(0001)表面对低覆盖度下吸附的五螺烯分子([5]H,C_(30)H_(18))进行了研究。研究发现,在极低的覆盖度下,可以在Cd(0001)表面观察到少量单分子以及异手性范德瓦尔斯二聚体。继续沉积分子,先后出现大量由[5]H分子形成的团簇和二维岛,且团簇的形态随偏置电压变化而变化。

The Role of Radiative Surface Modes and Longitudinal Excitons in the Formation of Exciton-Polariton Luminescence Spectra of CdS-Type Crystals

The low-temperature (T = 2 K) exciton-polariton luminescence (EPL) spectra in the vicinity of the exciton-resonance frequency An=1 for CdS-type crystals have been theoretically and experimentally investigated with allowance for the mechanical exciton decay . The results of the numerical calculations of the partial and interference contributions of the bulk and radiative surface spectral modes to the EPL in the geometry of additional s- and p-polarized waves emitted into vacuum are analyzed. It is shown that the contributions of purely longitudinal excitons and their interference with polaritons of the upper dispersion branch near the longitudinal frequency ωL to the EPL are small (∼10% - 30%);nevertheless, they must be taken into account to obtain quantitative agreement with experimental data. Specifically these contributions are responsible for the formation of an additional line (along with the fundamental AT line) in the case of oblique incidence of radiation.

Detection of Cd²⁺Ions Using Surface Plasmon Coupled Emission on Engineered Silver-α Nano Alumina Thin Film Hybrids

We report the first time fabrication of a silver-α nano alumina thin film hybrid and the observation of the Surface Plasmon Coupled Emission (SPCE) phenomenon in these substrates. We report an “8” fold enhancement in the intensity of the coupled emission signal with respect to the isotropic fluorescence signal. The coupled emission signal displayed a strong p-polarized (92%, p-polarized) output and directionality, which is in accordance with the theory of SPCE. The directionality of emission was found to have strong correlation with the theoretical modeling of minimum reflectivity calculations based on the theory of Surface Plasmon Resonance (SPR). We also report the novel extension of the fabricated substrates towards the economical and sensitive detection of toxic Cd2+ ions from aqueous solutions, which are of immense social relevance.

Effect of Defects at the Buffer Layer CdS/Absorber CIGS Interface on CIGS Solar Cell Performance

This scientific paper presents a study investigating the effects of defects at the CdS/CIGS and CdS/SDL interfaces on the performance of CIGS solar cells. The objective of this study is to analyze the influence of defects at the interface between the CdS buffer layer and the CIGS absorber, as well as the surface defect layer (SDL), on CIGS solar cell performance. The study explores three key aspects: the impact of the conduction band offset (CBO) at the CdS/CIGS interface, the effects of interface defects and defect density on performance, and the combined influence of CBO and defect density at the CdS/ SDL and SDL/CIGS interfaces. For interface defects not exceeding 1013 cm-2, we obtained a good efficiency of 22.9% when -0.1 eV analyzing the quality of CdS/SDL and SDL/CIGS junctions, it appears that defects at the SDL/CIGS interface have very little impact on the performances of the CIGS solar cell. By optimizing the electrical parameters of the CdS/SDL interface defects, we achieved a conversion efficiency of 23.1% when -0.05 eV < CBO < 0.05 eV.

氢原子在Ru(0001)表面的化学吸附

用密度泛函理论研究了氢原子的污染对于Ru(0001)表面结构的影响.通过PAW(projector-augmented wave)总能计算研究了p(1×1)、p(1×2)、(3～(1/2)×3～(1/2))R30°和p(2×2)等几种氢原子覆盖度下的吸附结构,以及在上述结构下Ru(0001)面fcc(面心立方)格点和hcp(六方密堆)格点的氢原子吸附.所得结果表明,在p(1×1)-H、p(1×2)-H、(3～(1/2)×3～(1/2))R30°-H和p(2×2)-H几种H原子覆盖度下,以p(1×1)-H结构单个氢原子吸附能为最大.在p(1×1)-H吸附结构下,由于氢原子吸附导致的Ru(0001)表面第一层Ru原子收缩的理论计算数值分别为-1.11%(hcp吸附)和-1.55%(fcc吸附),因此实际上最有可能的情况是两种吸附方式都有一定的几率.而实验中观察到的“清洁”Ru(0001)表面实际上是有少量氢原子污染的表面.不同覆盖度和氢分压下氢原子吸附的污染对Ru(0001)表面结构有极大的影响,其表面的各种特性都会随覆盖度的不同而产生相应的变化.

CdS纳米粒子的表面修饰及其对光学性质的影响

用反胶束法合成了用表面活性剂分子磺基琥珀酸双 2 乙基己酯钠盐 (AOT)进行表面修饰的CdS纳米粒子 (记为CdS/AOT SO-3) ,研究了这种纳米粒子在正庚烷(heptane)和吡啶 (Py)溶剂中的荧光及光解行为 .发现其在正庚烷中荧光很强 ,而Py却强烈地猝灭CdS纳米粒子的荧光 ,用电荷转移猝灭机制进行了解释 .