Variable valence Mo^(5+)/Mo^(6+)ionic bridge in hollow spherical g-C_(3)N_(4)/Bi_(2)MoO_(6) catalysts for promoting selective visible light-driven CO_(2)photoreduction into CO

Herein,the catalysts of ultrathin g-C_(3)N_(4)surface-modified hollow spherical Bi2MoO6(g-C_(3)N_(4)/Bi2MoO6,abbreviated as CN/BMO)were fabricated by the co-solvothermal method.The variable valence Mo^(5+)/Mo^(6+)ionic bridge in CN/BMO catalysts can boost the rapid transfer of photogenerated electrons from Bi2MoO6to g-C_(3)N_(4).And the synergy effect of g-C_(3)N_(4)and Bi2MoO6components remarkably enhance CO_(2)adsorption capability.CN/BMO-2 catalyst has the best performances for visible light-driven CO_(2)reduction compared with single Bi2MoO6and g-C_(3)N_(4),i.e.,its amount and selectivity of CO product are 139.50μmol g-1and 96.88%for 9 h,respectively.Based on the results of characterizations and density functional theory calculation,the photocatalytic mechanism for CO_(2)reduction is proposed.The high-efficient separation efficiency of photogenerated electron-hole pairs,induced by variable valence Mo^(5+)/Mo^(6+)ionic bridge,can boost the rate-limiting steps(COOH*-to-CO*and CO*desorption)of selective visible light-driven CO_(2)conversion into CO.It inspires the establishment of efficient photocatalysts for CO_(2)conversion.

Sulfur vacancies-induced“Electron Bridge”in Ni_(4)Mo/Sv-Zn_(x)Cd_(1-x)S regulates electron transfer for efficient H_(2)-releasing photocatalysis

Despite the existence of plentiful photocatalyst heterojunctions,their separation efficiency and charge flow precision remain low on account of lacking interfacial modulation.Herein,through a defect-induced heterojunction constructing strategy,Ni4Mo alloys were in-situ grown on the unsaturated coordinated sulfur atoms of sulfur vacancies-rich ZCS(Sv-ZCS)via interfacial Ni-S covalent bonds.The experimental and theoretical results reveal that these unsaturated sulfur atoms induced by sulfur vacancies vastly facilitate to anchor more Ni-Mo nanoparticles and form abundant Ni-S covalent bonds,meanwhile,these sulfur vacancies could form dual internal electric field(IEF)and work with Ni-S covalent bonds as“Electron Bridge”to further accelerate photoelectrons transfer,as well as promote the activation of water molecules and the desorption of hydrogen proton.Accordingly,the optimized Ni_(4)Mo/Sv-ZCS composite achieves an improved photocatalytic hydrogen evolution(PHE)rate of 94.69 mmol h^(-1)g^(-1)without an evident decrease after 6 cycles of photocatalytic tests,which is 21.2 and 1.94 times higher than those of Pt/ZCS and Ni_(4)Mo/ZCS,respectively.This tactic opens a new way for optimizing Zn_(x)Cd_(1-x)S-based heterojunctions by constructing sulfur vacancies and covalent bonds as“Electron Bridge”to enhance the activity of PHE.

Synthesis of a New Type Tetraamides Bridged Calix[4]arene

Two new tetraamides bridged calix[4]arenes were synthesized by the condensation reaction of 1,3-bis-chlorocarbonylmethyl p-tert-butylcalix[4]arene with 1,2-bis (2′-amino-2′-methylpropanamido) benzene or 1,2-bis (2′-amino-2′-methylpropanamido)-4,5-dichloro benzene, respectively. The new compounds were characterized by1H-NMR, MS-FAB, and elemental analysis; macrocyclic polyamine.

Molecular Design of Crown Ethers. 19~1. Synthesis of Novel Disulfide and Diselenide-Bridged Bis (benzo-12-crown-4)s and their Ag^+ Selective Electrode Properties

Two novel heteroatom-bridged his (benzo-12-crown-4 ether)s, i.e. his [2-nitro-4,5 (1,4,7,10-tetraoxadecamethylene) disulfide 1 and diselenide 2, have been synthesized. X ray crystallographic structure was obtained for 1. Ion selective electrodes (ISE) for Ag+, containing 1 and 2 in PVC membrane as neutral carriers, were prepared, and their selectivity coefficients for Ag^+ (K_(Ag.M)^(pot)) were determined against other heavy metal ions, alkali and alkaline-earth metal ions. and ammonium ion. These ISEs showed excellent Ag^+ selectivities, log K_(Ag.M)^(pot) ≤ -3.8, against most of the interfering canons examined, except for Hg^+.

Simulation of the Construction of a Swivel Bridge Using BIM 4D

The AEC (Architecture, Engineering, and Construction) industry is gradually shifting away from 2D CAD drawings and toward Building Information Modeling as a result of the fast development of science and technology (BIM). The BIM idea’s introduction emphasizes the need to specify a building in a single building model with adequate information to suit its different needs rather than defining it in fragmented documents. This research work aims to use the BIM 4D for the simulation of the construction sequence of a Swivel Bridge. For that, the software Revit was used to make the 3D model of the bridge, and the software Navisworks was used for the 4D construction simulation of the project. The results demonstrated that BIM technology could help reduce delays and problems with the schedule and improve communication among stakeholders, and BIM visualization and simulation features were very useful compared to traditional planning methods.

Synthesis of Bridged Dianiline Containing Fluorine

Four novel bridged dianilines containing fluorine were synthesized using 4-chloro-3, 5-dinitrobenzotrifluoride and diamine by two step condensation and reduction. The structures of corresponding compounds were determined by means of IR, NMR and elemental analysis.

桥梁板厚度1/4处探伤不合原因分析及改进措施

针对20mm规格Q345qD桥梁钢板厚度1/4处出现的探伤不合格问题,对探伤缺陷位置精确定位并取样。通过金相显微镜和扫描电子显微镜等分析手段,发现钢板1/4处存在超长超粗的点链状含Al、Ca、Mg的氧化物,并伴随有氢致裂纹是造成钢板探伤不合的主要原因。根据分析结果,对桥梁钢的冶炼和连铸工艺提出避免精炼后期补铝线、保证软吹时间、减少中间包干式料脱落、降低钢中氢含量等改进措施,解决了探伤不合格问题,提高了桥梁钢板的探伤合格率。

单炔基桥联双杯[4]芳烃的合成与对溶剂分子的包合性能

对叔丁基杯[4]芳烃直接与1,4-二氯-2-丁炔反应,一步制备了单炔基单桥联双杯[4]芳烃和单炔基双桥联双杯[4]芳烃,并证实单桥联双杯[4]芳烃是双桥联双杯[4]芳烃的中间产物.经1HNMR,13CNMR和ESI-MS分析证实了产物的结构.ESI-MS结果表明两种产物对DMF和H2O有不同的包合能力.

SiC晶须有序添加角度对Si_3N_4基体陶瓷的增韧效应

对晶须添加的方向角效应进行了研究 ,对裂纹尖端后方晶须桥连角度引起的应力重新分配进行了有限元分析 ,得到晶须添加角度不同时Si3N4 陶瓷材料的裂纹尖端和晶须附近区域的应力应变场。分析表明 ,试件在Ⅰ型加载受力状态下 ,当添加晶须的轴向垂直于裂纹面时 ,晶须在裂纹尖端后方的桥接所引起的能量耗散作用最大 ,添加效果最优 ,使材料达到较好的增韧效果。当添加晶须与裂纹面法向形成角度θ时 ,随角度θ的增加 ,裂纹尖端拉应力增加。当添加角度较大时 ,晶须根部基体承受了较大的应力 ,易遭到破坏性崩裂。同时 ,晶须内部主应力与晶须轴向之间的角度也随角度θ的增加而增加 ,造成晶须折断 ,致使造成晶须拨出的体积分数 φap减小 。

弱结合、可加工Ce-ZrO_2/CePO_4陶瓷材料设计

对含有弱结合界面的可加工Ce-ZrO2 /CePO4陶瓷材料的设计进行了研究。结果表明 ,在Ce -ZrO2 中引入CePO4后可形成强弱界面共存的情况 ,弱界面处易形成微裂纹 ,并发生裂纹桥联等形式 ,改善了材料的加工性能。但Ce -ZrO2 /CePO4材料的强度等力学性能受温度等工艺因素影响较大 ,在 15 5 0℃× 2h下颗粒尺寸与发生裂纹桥联等形式相适应 ,耗散了主裂纹扩展的能量 ,增加了材料的断裂功 ,从而使得Ce -ZrO2 /CePO4陶瓷材料具有可加工性的同时仍可维持一定的力学性能 ,且加工损伤变小 。

苄连氮基桥联的双杯[4]芳烃的合成

对叔丁基杯[4]芳烃-1,3-二醛基衍生物1分别与水杨醛腙、水合肼进行"1+2"和"2+2"缩合反应,方便地合成了苄连氮基取代或桥联的新型杯[4]芳烃衍生物2和双杯[4]芳烃衍生物3,产率分别为84%和81%.新化合物的结构与构象经元素分析、质谱、核磁共振谱和1H-1HCOSY谱图等表征证实,双杯[4]芳烃衍生物3为空间结构完全对称的具有管状三维空腔的杯式构象.

桥联双β-环糊精对N-[4-(1-芘基)]丁酰-D/L-苯丙氨酸的手性识别及机理研究

利用紫外-可见吸收和荧光发射光谱,结合非线性最小二乘法拟合曲线以及分子力学(MM2)模拟系统地研究了手性分子N-[4-(1-芘基)]丁酰-D/L-苯丙氨酸(PDP和PLP,总称PPs)与β-环糊精(-βCD)、2-位硒桥联双-βCD(2-SeCD)和2-位碲桥联双-βCD(2-TeCD)的包结能力大小及这3个环糊精对PPs手性识别能力的差异和识别机理.研究结果表明,PPs不能与单疏水空腔的-βCD形成很好的包结复合物,与具有较长桥联链的2-TeCD结合能力最强.2-TeCD与PDP和PLP的结合常数分别为2.33×104和6.07×103L/mol,对PPs的手性识别比达到KD/KL=3.84,高于2-SeCD(KD/KL=2.61).用MM2模拟得出了PPs与这两个双环糊精形成复合物的三维结构:PPs的绝大部分位于双环糊精两个空腔之间,但是在这两个复合物中,苯环与芘环所成的二面角不同.此外,PPs与这两个双环糊精作用时均存在明显的氢键相互作用,且2-TeCD强于2-SeCD.

以含氨基酸1,3-桥联杯[4]芳烃为涂层的压电石英传感器对有机胺和有机醇的选择性识别研究

分别以三种新型含氨基酸 1,3 桥联杯 [4 ]芳烃衍生物作为压电石英传感器的敏感涂层 ,测定了一系列相同浓度的有机胺和有机醇蒸气 .三种敏感涂层均对正构胺和正构醇表现出明显高的响应值 .烷烃基支链越多 ,相应的频率变化就越小 ,说明涂层膜对气体分子的选择性识别主要是分析物的位阻效应、氢键及空腔疏水力共同作用的结果 .含胱氨酸的 1,3 桥联杯 [4]芳烃衍生物涂层对各种蒸气的响应值均高于另外两种涂层 ,桥联杯芳烃的构象和衍生桥环的大小及构成均对涂层识别胺和醇的异构体有重要影响 .本文也研究了实验条件的优化 .

桥接组合式内固定系统治疗肱骨干下1/4骨折不愈合患者的临床效果

目的分析探讨肱骨干下1/4骨折不愈合患者应用桥接组合式内固定系统治疗的临床效果。方法回顾性分析2009年1月~2015年1月在青海省人民医院骨科四病区就诊的112例肱骨干下1/4骨折不愈合患者的临床资料,根据采取治疗方案的不同将其分为对照组和观察组,每组各56例。对照组患者采用传统单锁定加压钢板治疗,观察组患者采用桥接组合式内固定系统治疗,比较两组患者治疗前后的生活质量评分、肘关节功能(Constant-Murley)评分及近期并发症发生情况。结果观察组患者治疗后的日常生活、社会活动、抑郁、烦躁、生活质量总评分及Constant-Murley评分明显高于对照组患者,差异有统计学意义(P <0.05);两组患者在术后1、3、6个月感染、血管神经损伤的发生得到有效控制,近期并发症的发生率比较,差异无统计学意义(P> 0.05)。结论应用桥接组合式内固定系统治疗肱骨干下1/4骨折不愈合可有效提高患者生存质量,关节功能复健良好,术后感染、血管神经损伤等并发症发生率低,临床效果显著。

氨基脲桥联杯[4]芳烃衍生物的合成及性能研究

设计并合成了下沿含缩氨脲基和席夫碱基的新型桥联杯[4]芳烃衍生物,经1H NMR、MS和元素分析等表征确证其结构;测定了新型桥联杯[4]芳烃衍生物对金属阳离子和氨基酸分子的两相萃取性能,结果表明新型主体分子通过多官能团的协同作用具有较好的配位性能。

“3+4”中职本科机械设计制造及其自动化专业人才培养模式研究

中职本科院校合作培养"3+4"本科层次高端技术技能型人才,是推进中职层次上移、调整与完善职业教育健康发展的有效途径。石家庄工程技术学校、承德工业学校与河北工程大学选择"机械设计制造及其自动化"专业作为试点改革项目,提出分段培养机制专业应用型本科层次高端技术技能型人才。以知识、能力和素质培养为主线,进行本专业分段培养目标的确定、衔接课程体系的构建、岗位职业能力的培养、教学组织管理和质量保障体系等方面的研究,有利于试点项目的健康推进和人才培养目标的实现。

9,10-蒽-3,3'-双(1,3-戊二烯-2,4-二醇)桥联双核铜(Ⅱ)配合物的合成与表征

以高氯酸铜、二苯甲酰甲烷、9,10-蒽-3,3'-双(1,3-戊二烯-2,4-二醇)为原料合成了新型固态三元配合物[Cu2(C24-H20O4)(C15H11O2)2],并用元素分析、电导率、红外光谱、电子光谱和电喷雾质谱对其进行了表征,确定了配合物的组成,研究了配合物在氮气气氛中的热分解行为,测得其荧光光谱的最大发射波长为431 nm。对配合物测量了室温固体电子顺磁共振谱,定性探讨了配合物的电子结构,得到了其波谱参数(g=2.123 8)。

9,10-蒽-3,3′-双(1,3-戊二烯-2,4-二醇)桥联双核镍(Ⅱ)配合物的合成及磁性研究

以9,10-蒽-3,3′-双(1,3-戊二烯-2,4-二醇)和二苯甲酰甲烷为原料合成了新型固态三元配合物[Ni2(C24H20O4)(C15H11O2)2].H2O,并用元素分析、电导率、红外光谱、电子光谱和电喷雾质谱对其进行了表征,确定了配合物的组成,研究了配合物在氮气气氛中的热分解行为。其荧光光谱的最大发射波长为430nm,变温磁化率(2～300K)的测定结果表明桥联双核Ni2+配合物为铁磁性自旋交换作用,Curie常数C=2.04cm3.mol-.1K,Weiss常数θ=8.10K。

新型双-1,2-酰胺桥联杯[4]芳烃对碱金属苦味酸盐的加合性质

杯芳烃依据其空穴的大小和性质而对离子具有选择性加合的能力,这可用作离子的分离和识别 作者利用氨解杯[4]芳烃酯合成新型双 1,2 酰胺桥联杯[4]芳烃,用紫外光度法研究它对碱金属苦味酸盐的加合性质,24℃时在CHCl3介质中,测得其对钾、铷的加合常数Ka,表明该杯[4]芳烃对碱金属K+。

Cu(Ⅱ))的丙烯酸桥联双核配合物及醋酸、2,4,6-三甲基吡啶三元配合物的合成与表征

在温和条件下合成了Cu(Ⅱ)的丙烯酸双核配合物[Cu2(C3H3O2)4].H2O和醋酸、2,4,6-三甲基吡啶三元配合物[Cu(C2H3O2)2(C8H11N)2]。通过元素分析、红外光谱、紫外光谱和核磁测试表征了该两种配合物的组成和结构,并用溶解度、电导率测试等物理化学手段对配合物的物理化学性质进行了初步研究。