硫酸盐还原菌EMZY-1生理生化特性研究及16SrDNA序列分析

菌株EMZY-1是一株从中国大庆油田回注水中分离得到的硫酸盐还原菌(SRB)。通过对该菌株的形态、培养特征、生理生化特征的研究以及16S rDNA序列分析表明:该菌株为革兰氏阳性菌;细胞为棒杆状,端生孢子,大小约0.3×1.7(μm);温度低于10℃、高于60℃无明显生长;pH低于5.0、高于12.0无明显生长;NaCl质量浓度达到10%菌株不能生长;能在蔗糖、葡萄糖、甘露醇为C源的培养基上生长;NH4+、NO3-为菌株良好N源。菌株EMZY-1属于梭菌科。16S rDNA序列分析表明该菌与梭菌科中的Garciella nitratireducens菌同源性最高(99%),GenBank的注册号为EU275367,国内尚未见报道该类SRB。

生物表面活性剂产生菌的筛选及表面活性剂稳定性研究

大庆油田油泥样品经富集培养,平板分离,获得52株菌。排油性实验和表面张力测定表明,菌株B22、B24、B25产生的表面活性剂表面活性稳定,表面张力较低。温度、pH和NaCl浓度实验证实,细菌B22产生的生物表面活性剂可耐受120℃高温,另2种生物表面活性剂可耐受80℃;3种细菌生物表面活性剂对pH有广泛适应性,B22pH适应范围为4·0~13·0,B24、B25的pH适应范围为2·0~13·0;Na-Cl浓度对表面活性剂的生物活性影响不大。将3株菌的生物表面活性剂用于室内油泥处理实验,72h石油去除率达70%以上。

硝基苯微生物降解的优化条件研究

研究硝基苯初始浓度、pH值、重金属和NaCl浓度对硝基苯微生物降解的影响。从污染现场筛选、分离出8株硝基苯降解菌,进行无空列重复1次的正交试验,采用紫外分光光度计对降解体系中硝基苯含量进行快速检测。结果表明,硝基苯初始浓度、pH值、重金属和NaCl浓度均对硝基苯降解率有极显著影响,其影响程度依次为硝基苯初始浓度>pH值>NaCl浓度>重金属。硝基苯初始体积比为1000μL/L,pH值为8,NaCl质量浓度为50mg/L,ZnCl2质量浓度为50mg/L时,硝基苯降解率最高,为72.9%。硝基苯降解优化试验显著促进了硝基苯的微生物降解,可提高污染物的降解效率。

盐胁迫下水稻叶片光合参数对光强的响应

以耐盐性不同的两个水稻品种秋光和辽盐2号为试材,在设定条件下测定长时间NaCl胁迫下水稻剑叶的净光合速率(Pn)、蒸腾速率(Tr)、气孔导度(Gs)和胞间CO2浓度(Ci)在不同光照强度(PFD)诱导下的反应差异与水稻抗性的关系.结果表明,在不同浓度NaCl胁迫下,随着PFD的升高,两品种的Pn和Gs均呈上升趋势,与对照相比,耐盐品种辽盐2号的Pn增加了14.87%,而秋光的Pn则下降了17.91%.Ci、Ls及Pn/Gs比值的变化趋势表明,气孔因素和非气孔因素对辽盐2号的光合变化起到了积极作用,而气孔因素则是引起秋光光合变化的主要原因.

荧光原位杂交技术对土壤石油降解菌的检测

从辽河油田样品中筛选出一株高效石油降解菌,经鉴定为地衣芽孢杆菌。针对其16SrRNA设计寡核苷酸探针。荧光原位杂交(FISH)技术利用寡核苷酸探针检测特定细胞内的互补核苷酸序列。通过对纯菌和泥浆中地衣芽孢杆菌的FISH进行优化,得到泥浆中地衣芽孢杆菌的荧光原位杂交实验条件:样品固定时间17h,杂交温度46℃,杂交时间3h,杂交液中去离子甲酰胺浓度35%,冲洗缓冲液中与去离子甲酰胺对应的NaCl的浓度88mmol.L-1。运用上述FISH技术监测生物泥浆反应器中地衣芽孢杆菌量的变化,并与泥浆中含油率的变化进行比较,二者的变化情况符合微生物降解石油的趋势,为监测含油污泥中微生物的变化提供了一种可行的技术。

Synthesis and Aqueous Solution Properties of Hydrophobically Modified Anionic Acrylamide Copolymers

In this investigation, hydrophobically modified polyacrylamide with low amounts of anionic long-chain alkyl was synthesized by the free radical polymerization in deionized water. This water-soluble copolymerization method is more convenient compared with the traditional micellar copolymerization methods. The copolymers were characterized using Fourier transform infrared, H-1 NMR, and the molecular weight and polydispersity were determined using gel permeation chromatography. The solution behavior of the copolymers was studied as a function of composition, pH, and added electrolytes. As NaCl was added to solutions of AM/C(11)AM copolymers or pH was lowered, the shielding or elimination of electrostatic repulsions between carboxylate groups of the C(11)AM unit lead to coil shrinkage.

Electronic and mechanical properties of 5d transition metal mononitrides via first principles

The electronic and mechanical properties of 5d transition metal mononitrides from LaN to AuN are systematically investigated by use of the density-functional theory. For each nitride, Six Structures are considered, i.e., rocksalt, zinc blende, CsCl, wurtzite, NiAs and WC structures. Among the considered structures, rocksalt structure is the most stable for LaN, HfN and ALIN, WC structure for TaN, NiAs structure for WN, wurtzite structure for ReN, OsN, IrN and PtN. The most stable Structure for each nitride is mechanically stable. The formation enthalpy increases from LaN to AuN.

Size-controlled synthesis of monodispersed gold nanoparticles stabilized by polyelectrolyte-functionalized ionic liquid

The size-controlled synthesis of monodispersed gold nanoparticles (AuNPs) stabilized by polyelectrolyte-functionalized ionic liquid (PFIL) is described. The resulting AuNPs' size, with a narrow distribution, can be tuned by the concentration of HAuCl4. Such PFIL-stabilized AuNPs (PFIL-AuNPs) showed a high stability in water at room temperature for at least one month; they were also quite stable in solutions of pH 7-13 and high concentration of NaCl.

A strategy to prepare ultrafine dispersed Fe2O3 nanoparticles

In this article, a novel strategy was applied to prepare dispersed ultrafine alpha-Fe2O3 nanoparticles. The initial Fe(OH)(3) nanoparticles were synthesized by the reaction of NaOH and FeCl3 in alcohol. With the new-formed nanoparticles as nuclei, NaCl crystallized and encapsulated the particles into solid cages. As a result, the nanoparticles were prevented from aggregating and growing. The composite of Fe(OH)(3) and NaCl was calcined and then washed by water to obtain the pure alpha-Fe2O3 nanoparticles.

First Principles Investigation on the Ultra-Incompressible and Hard TaN

The structural, electronic, and mechanical properties of TaN were investigated by use of the density functional theory (DFT). Eight structures were considered, i.e.. hexagonal WC TaN, NiAs, wurtzite, and CoSn structures. cubic NaCl. zinc-blende and CsCl structures. The results indicate that TaN in TaN-type structure is the most stable at ambient conditions among the considered structures. Above 5 GPa, TaN in WC-type structure becomes energetically the most stable phase. They are also stable both thermodynamically and mechanically. TaN in WC-type has the largest shear Modulus 243 GPa and large bulk modulus 337 GPa among the considered structures. The Volume compressibility is slightly larger than diamond, but smaller than c-BN at pressures from 0 to 100 GPa. The compressibility along the c axis is smaller than the linear compressibility of both diamond and c-BN.

Ab initio study on the electronic and mechanical properties of ReB and ReC

The structural, electronic, and mechanical properties of ReB and ReC have been studied by use of the density functional theory. For each compound, six structures are considered, i.e., hexagonal WC, NiAs, wurtzite, cubic NaCl, CsCl, and zinc-blende type structures. The results indicate that for ReB and ReC, WC type structure is energetically the most stable among the considered structures, followed by NiAs type structure. ReB-WC (i.e., ReB in WC type structure) and ReB-NiAs are both thermodynamically and mechanically stable. ReC-WC and ReC-NiAs are mechanically stable and becomes thermodynamically stable above 35 and 55 GPa, respectively. The estimated hardness from shear modulus is 34 GPa for ReB-WC, 28GPa for ReB-NiAs, 35GPa for ReC-WC and 37GPa for ReC-NiAs, indicating that they are potential candidates to be ultra-incompressible and hard materials.

The nanocomposite scaffold of poly(lactide-co-glycolide) and hydroxyapatite surface-grafted with L-lactic acid oligomer for bone repair

Nanohydroxyapatite (op-HA) surface-modified with L-lactic acid oligomer (LAc oligomer) was prepared by LAc oligomer grafted onto the hydroxyapatite (HA) surface. The nanocomposite of op-HA/PLGA with different op-HA contents of 5, 10, 20 and 40 wt.% in the composite was fabricated into three-dimensional scaffolds by the melt-molding and particulate leaching methods. PLGA and the nanocomposite of HA/PLGA with 10 wt.% of ungrafted hydroxyapatite were used as the controls. The scaffolds were highly porous with evenly distributed and interconnected pore structures, and the porosity was around 90%. Besides the macropores of 100-300 mu m created by the leaching of NaCl particles, the micropores (1-50 mu m) in the pore walls increased with increasing content of op-HA in the composites of op-HA/PLGA. The op-HA particles could disperse more uniformly than those of pure HA in PLGA matrix. The 20 wt.% op-HA/PLGA sample exhibited the maximum mechanical strength, including bending strength (4.14 MPa) and compressive strength (2.31 MPa). The cell viability and the areas of the attached osteoblasts on the films of 10 wt.% op-HA/PLGA and 20 wt.% op-HA/PLGA were evidently higher than those on the other composites.

疏水基改性聚丙烯酰胺的合成及溶液性质

利用自由基胶束聚合法,由丙烯酰胺和甲基丙烯酸十八酯共聚合成了疏水缔合型水溶性聚合物。通过红外光谱表征了共聚物的结构,考察了共聚物浓度、盐浓度、剪切速率以及温度对共聚物溶液性能的影响。试验结果表明,聚合物质量分数大于临界缔合浓度(2%)时,溶液的粘度急剧增大;疏水缔合聚合物溶液的表观粘度随着溶液中NaCl质量分数的增加而增大。

水基导电聚苯胺/二氧化硅杂化材料的防腐性能研究

利用羧基同导电聚苯胺(cPANI)主链上的氮原子的相互作用,制备了静电作用型水基导电聚苯胺/二氧化硅杂化材料,研究了杂化材料涂层对冷轧钢板的防腐性能.在3.5%NaCl中,含11 wt%cPANI的杂化材料涂层的腐蚀电位比纯二氧化硅涂层正移了200 mV,腐蚀电流从13.4μA降到2.4μA,下降了5倍,表明含cPANI的静电作用型杂化涂料使冷轧钢板表面变得更惰性.阻抗分析结果表明,cPANI含量为11 wt%的静电作用型杂化材料的阻抗比纯无机二氧化硅涂层大一个数量级,而且在碱性介质中浸泡10天后,杂化材料涂层的阻抗仍然保持稳定,而纯无机二氧化硅涂层的阻抗比初始值下降了一个数量级.杂化材料的形态分析结果表明,cPANI在静电作用型cPANI/二氧化硅杂化材料中的分布比在普通cPANI/二氧化硅杂化材料中更加均匀一致,从而使得它比普通的cPANI/二氧化硅杂化材料具有更好的防腐效果.

Polyampholytes superabsorbent nanocomposites with excellent gel strength

A series of novel polyampholyte superabsorbent nanocomposites with excellent gel strength were synthesized by in situ solution polymerization in aqueous solution. Acrylic acid and acryloyloxyethyl trimethyl ammonium chloride (DAC) were employed as ionic monomers and montmorillonite (MMT) was used as inorganic component. The addition of cationic component could supply the positive charge in the network of nanocomposite and promote the formation of nanostructure of composites due to the interaction between DAC and clay platelets. The performance of polyampholyte nanocomposites were investigated and the result showed that the gel strength of nanocomposite hydrogel in distilled water and 0.9 wt% NaCl solution could reach 198.85 and 204.23 mJ/g, respectively, which were 13 times of the gel strength of matrix. The investigation of swelling behaviors showed that the nanocomposites had particular swelling behaviors of polyampholytes hydrogel in solution with different pH values and concentration of NaCl.