二元光学反／衍混合Schmidt望远系统光学设计

针对空间光学系统轻型的特点，采用衍射光学元件取代Ｓｃｈｍｉｄｔ校正板来校正系统像差，设计了一个二元光学反／衍混合Ｓｃｈｍｉｄｔ望远系统。光学系统的通光孔径为＝２００ｍｍ，相对孔径Ｆ／＃＝１．９，波长λ＝４．３μｍ，视场２ω＝１０°。光学设计采用ＯＳＬＯｓｉｘ软件。光学设计结果：空间频率ν≤６０ｃｙｃｌｅｓ／ｍｍ时，调制传递函数ＭＴＦ≥０．４。     

氧化钛负载脱硝催化剂的碱中毒过程：氧化钒的保留和氧化钨的牺牲

V2O5-WO3/TiO2催化剂目前已广泛用于电厂和工业锅炉燃烧废气脱硝,但燃烧原料煤及石油中含有的杂质元素碱金属与碱土金属元素可吸附在催化剂上,不仅会减少催化剂酸性位的数量,还会与催化活性元素结合生成惰性物种,导致催化剂失活。因此,已有许多有关钒钨钛催化剂碱中毒的研究,从催化剂的氧化还原能力、酸性位损失及表面孔结构等方面进行了讨论。但这些研究大多集中在碱中毒对活性组分V2O5的影响及中毒催化剂的活性变化,很少涉及催化剂中WO3的作用,也缺乏有关不同活性元素与钾盐反应的实验证据。本文采用过量浸渍法制备了不同钒和钨含量的钒钨钛催化剂,研究了氯化钾对其氨法选择性催化还原(NH3-SCR)活性的失活效应。利用感应耦合等离子体、N2吸附、拉曼光谱、H2程序升温还原、NH3吸附红外光谱和NH3氧化活性等手段对新鲜和中毒催化剂的性质进行了表征,特别探讨了V2O5和WO3对催化剂抗碱中毒能力的贡献。
　　催化剂活性测试结果表明, V2O5含量越高,活性温度窗口越宽,而且含有WO3的三元催化剂活性高于V2O5/TiO2二元催化剂。催化剂的BET比表面积和孔结构取决于TiO2载体,随活性组分配比变化不大,说明催化剂物理结构性质并非影响活性的主要因素。原位红外光谱及H2程序升温还原测试结果表明,随V2O5含量提高,催化剂表面Br?nsted酸性位数量及氧化还原能力提高。作为反应的主要活性物种, V2O5在碱中毒处理后变成惰性的偏钒酸钾KVO3,使催化剂中Br?nsted酸性位减少,热稳定性下降,并削弱了催化剂的氧化还原能力,因此低钒含量的催化剂容易严重中毒失活。在高钒负载量(3%)时,部分V2O5在碱中毒后得以保留,从而使催化剂保持了一定的脱硝催化活性。
　　另外, WO3能给催化剂表面提供热稳定的酸性位,虽然WO3自身的氧化还原能力差,但其能改善V2O5的分散性,从而提高V2O5-WO3/TiO2催化剂的活性。除此之外, WO3在催化剂碱中毒过程中还能扮演牺牲剂,与钾反应生成钨酸钾(K2WO4),即在V2O5与钾离子结合形成KVO3的同时,部分WO3也会与钾反应形成K2WO4,可以使三元催化剂保留更多的活性V物种。因此,在所研究的催化剂中,高钒负载量的V2O5-WO3/TiO2催化剂表现出最好的抗碱中毒能力。
　　活性影响因素分析表明,对于新鲜催化剂,其表面吸附的NH3量足够多,催化剂活性与表面酸性相关度不大,脱硝效率主要取决于催化剂的氧化还原能力。但是,对于碱中毒处理后的催化剂,其表面吸附NH3的能力大大削弱,这时脱硝效率除了受催化剂氧化还原能力影响,在很大程度上也依赖于催化剂的表面酸性。     

Investigation of Zn<Subscript>m</Subscript>Cd<Subscript>n</Subscript>X<Subscript>y</Subscript> (y = m + n; X = Te,Se and S) Clusters with TDDFT Method

Based on zinc blende and wurtzite structures of experimental ZnTe and CdTe nanocrystals, Zn_mCd_nX_y (X = Te, Se and S) clusters were investigated using DFT/B3LYP/LANL2DZ. From analyses of their characters of conformations, HOMO–LUMO gaps, Raman and absorption spectra, Mulliken charges and WBI (Wiberg Bond Index) values, we have discovered that Zn_mCd_nTe_y, Zn_mCd_nSe_y and Zn_mCd_nS_y molecules had similar characters. In this paper, characters of Zn_mCd_nTe_y were investigated in detail. First, we have found that HOMO–LUMO gaps, Raman spectra, absorption spectra, bond lengths and Mulliken charges of doping Zn₂CdTe₃, ZnCd₂Te₃, Zn₃CdTe₄, Zn₂Cd₂Te₄ and ZnCd₃Te₄ structures were in the scope of corresponding naked ZnTe and CdTe clusters. These characters of doping Zn_mCd_nTe_y molecules show that their stabilities are good. Second, comparing with ZnTe structures, the wavelengths of the absorption peaks of doping Zn_mCd_nTe_y clusters shift to red in water environment. Moreover, with increasing of the number of Cd atom, their wavelengths of the absorption peaks gradually shift to red. This conclusion is consistent with the experimental fact. Third, Raman spectra of pure ZnTe clusters have higher frequencies than corresponding naked CdTe structures. As for doping molecules, the frequencies of their Raman spectra gradually shift to low frequencies with increasing of Cd atoms’ number.     

Synthesis of raspberry-like monodisperse magnetic hollow hybrid nanospheres by coating polystyrene template with Fe(3)O(4)@SiO(2) particles

A new inorganic/organic hybrid material containing silsesquioxane was prepared by the reaction of caged octa (aminopropyl silsesquioxane) (POSS-NH(2)) with n-butyl glycidyl ether (nBGE) and 1,4-butanediol diglycidyl ether (BDGE). The copolymers of POSS, nBGE, and BDGE could be obtained with varied feed ratio of POSS-NH(2), nBGE, and BDGE in the preparation. The hybrid material was added into an epoxy resin (E51) for enhancing the toughening and thermal properties of the epoxy resin. The results showed that the toughening and the thermal properties of the cured epoxy resin were greatly improved by the addition of the hybrid. The enhancement was ascribed to nano-scale effect of the POSS structure and the formation of anchor structure in the cured network. The investigation of kinetics for the curing process of the hybrid-modified epoxy resin revealed that two kinds of curing reactions occurred in different temperature ranges. They were attributed to the reactions between amino groups of the curing agent with epoxy groups of E51 and with residue epoxy groups in the hybrid. The reacting activation energies were calculated based on Kissinger's and Flynn-Wall-Ozawa's methods, respectively.     

Theoretical study on influence of ligand and solvent to CdS clusters

Based on the experimental zinc blende and wurtzite structures of CdS nanocrystals, five new CdS clusters (Cd₃S₃, (Cd₃S₃)₂, (Cd₃S₃)₃, Cd₄S₄ with C_2V, and Cd₄S₄ with T_D symmetry) are investigated via optimization of their original structures at B3LYP/Lanl2dz theoretical level. Through considering integration influence of solvent and ligand, our calculated Raman and absorption spectra can be consistent with the reported experimental results. First, our calculated Raman peaks of Cd₃S₃, Cd₄S₄ (T_D), (Cd₃S₃)₂, and (Cd₃S₃)₃ are within the range of 260–290 cm^?1, which is also reported by experiment. Subsequently, for deep researching five clusters, the absorption spectra of them are calculated using time‐dependent DFT method. The wavelengths of the absorption peaks, which is calculated in solvent, increase in the order Cd₃S₃, Cd₄S₄ (T_D), (Cd₃S₃)₂, and (Cd₃S₃)₃. Moreover, the wavelengths of absorption peaks shift to blue in solvent, compared with those without solvent. Furthermore, our clusters are smaller than the size of the smallest CdS nanocrystals, the calculated absorption spectra of five clusters in solvent show obvious blue shift than the wavelengths of absorption spectra of reported CdS nanocrystals. This is induced by the quantum size effect. Besides, we further investigated the influence of ligands to CdS unit in aqueous condition. Through structures and characters analysis of S? Cd? SR, we discovered that ligands took important role during the formation of CdS nanocrystals in aqueous synthesis. Calculated results of spectra, bond length, and Wiberg bond index (WBI) values show that different ligands have similar influence on CdS unit. Moreover, using WBI values, we also confirm that Cd atom has stronger interaction with S in nanocrystals than that with S atom in ligand. © 2009 Wiley Periodicals, Inc. Int J Quantum Chem, 2011     

Protein‐Directed Solution‐Phase Green Synthesis of BSA‐Conjugated MxSey (M=Ag,Cd, Pb,Cu) Nanomaterials

Bovine serum albumin (BSA)‐conjugated M_xSe_y (M=Ag, Cd, Pb, Cu) nanomaterials with different shapes and sizes were synthesized in water at room temperature by a protein‐directed, solution‐phase, green synthetic method. The method features very low energy consumption and nontoxic reagents with high yields of concentrated nanoparticles. The obtained bioconjugated nanoparticles have good dispersibility, bioactivity, and biocompatibility. In addition, various functional groups of protein on the surface of the nanocrystals are suitable for further biological interactions or couplings, which is very important for further biological applications.     

Concentration quenching in erbium-doped tellurite glasses

Er₂O₃-doped TeO₂-ZnO-La₂O₃ modified tellurite glasses were prepared by the conventional melt-quenching method, and the Er³⁺: ⁴I_13/2→⁴I_15/2 fluorescence properties have been studied for different Er³⁺ concentrations. Infrared spectra were measured in order to estimate the exact content of OH⁻ groups in samples. Based on the electric dipole-dipole interaction theory, the interaction parameter, C_Er,Er, for the migration rate of Er³⁺: ⁴I_13/2→⁴I_13/2 in modified tellurite glass was calculated. Finally, the concentration quenching mechanism using a model based on energy transfer and quenching by hydroxyl (OH⁻) groups was presented.     

计算机产生全息图对补偿器检测的技术研究

用一种计算全息板代替补偿器零检验光路中理想的大型非球面,实现对补偿器的定量检验.用于检测补偿器旋转对称的二元反射式全息板根据非球面方程设计,并确定其光程差,再由激光直写(精度可达0.6μm)来制作完成,合成相当于理想非球面反射波前.其检测精度小于λ/10.补偿器的参量由抛物面和三级球差理论确定.     

The role of water in promoting the oxidative dehydrogenation of ethane

The addition of water vapor has a strong positive effect on the rate of ethane oxidation at 575°C. This effect is attributed to the role of H₂O as a third body in the decomposition of H₂O₂ to OH radicals. Carbon tetrafluoride likewise enhances the rate of ethane conversion, although not to the extent realized with H₂O. A kinetic model, based on known elementary reactions, adequately accounts for the conversions and selectivities observed as a function of H₂O pressure, temperature, contact time, and O₂ pressure. © 1994 John Wiley & Sons, Inc.