列管型射流式O_（2）(^(1)△)发生器的COIL出光研究

采用列管型射流式 O2 ( 1Δ)发生器在 COIL装置上做了一系列出光实验 ,对该发生器的性能、参数及相关技术等做了实验研究。实验获得化学效率最高达 2 2 .2 %。

射流式O_(2)(^(1)Δ)发生器的理论

本文从氯的气相、液相扩散方程，得到了氯的利用率的解析解，与实验结果基本相符．这对化学氧碘激光器（COIL）的O2（1Δ）发生器的深入研究有重要意义．

O_(2)(^(1)△)发生器溶液预混及反应换热系统设计

通过采用离心泵与换热器进行的换热系统设计 ,缩短了溶液预混时间 ,增强了 O2 ( 1Δ)发生器的反应换热效率 ,同时使发生器在反应中具备了动态传质性能 ,改善了氧碘化学激光器的输出功率。

火星O_(2)(a^(1)Δ_(g))气辉高光谱分辨辐射传输特性研究

1.27μm波段的氧分子近红外气辉是火星大气最重要的气辉辐射之一,该气辉高光谱分辨辐射传输模型的建立对于研制火星探测载荷,反演火星大气的风场温度场与臭氧浓度,以及研究火星空间物理,有重要的科学价值与工程意义.在研究火星大气O_(2)(a^(1)Δ_(g))气辉光化学反应模型的基础上,提出了O_(2)(a^(1)Δ_(g))气辉体辐射率的计算方法,并建立了火星大气气辉辐射传输理论;通过与用于研究火星大气特征的光谱学探测仪(Spectroscopy Spectrograph for the Investigation of Characteristics of the Atmosphere of Mars,SPICAM)的实测数据进行对比,验证了所建立的火星O_(2)(a^(1)Δ_(g))气辉高光谱分辨辐射传输模型的准确性;针对火星与地球大气的O_(2)(a^(1)Δ_(g))气辉,在体辐射率、自吸收效应,以及临边辐射光谱特性三个方面进行了系统深入的比较,对比结果表明,火星大气由于密度低、氧气丰度小,其自吸收效应可以忽略不计,但其O_(2)(a^(1)Δ_(g))气辉辐射强度与地球大气相当,可以用于火星大气的风场温度场与臭氧浓度的探测与反演.

方列管型射流式O_2(~1Δ)发生器的COIL出光研究

方列管型射流式 O2 ( 1 Δ)发生器是一种新型高效的氧碘化学激光器 ( COIL)化学能源供给装置。描述了采用该发生器在 COIL上所做的一系列出光实验 ,这些实验着重于考察该发生器的性能参数及相应的 COIL化学效率。结果在 Cl2 流量为 0 .2 5mol/ s、无冷阱、稳定腔条件下获得化学效率高达2 6%。

射流式O2（^1△）发生器射流破断长度测量

实验研究了甘油 -水溶液通过用不同加工方法和不同喷管长度 /直径比的喷管形成射流的破断长度。射流的行为与喷管内是层流还是湍流的流动状态关系极大。当射流速度比较大时 ,喷管的缺陷如进口出口的毛刺和流道壁的粗糙度是诱发湍流使射流破断的主要原因。这些结果对化学氧碘激光的射流式 O2 ( 1Δ)发生器的喷管设计和制造提供了有价值的参考。

八面体FMN-700活化过硫酸盐产生^(1)O_(2)降解偶氮有机物

以掺氮普鲁士蓝类似物(PBA)为前驱体,通过高温煅烧法制备了含铁、锰氮化物的催化材料(FMN-700),用于活化过一硫酸盐(PMS)快速降解偶氮有机物.通过扫描电子显微镜(SEM)、X射线粉末衍射仪(XRD)、傅里叶变换红外光谱仪(FTIR)对催化剂进行表征,证明FMN-700具有层状堆叠的正八面体结构,含有铁锰氮化物.研究了催化剂投加量,PMS浓度和初始pH值等因素对偶氮有机物降解的影响,结果表明在初始pH值为7、催化剂投加量为0.2g/L、PMS浓度为2mmol/L的条件下,60min内可使10mg/L的RBK5脱色率达99.5%.淬灭实验、电子顺磁共振(EPR)显示^(1)O_(2)为降解体系的主要活性物质.X射线光电子能谱(XPS)表明反应前后Fe(III)/Fe(II)、Mn(III)/Mn(II)比值增大,吡啶N向吡咯N和石墨N转化,该过程可以诱导产生^(1)O_(2).3D-EEM光谱反应后荧光强度大幅升高,表明具有荧光淬灭作用的偶氮键被破坏,实现偶氮有机物的脱色降解.

体光源模拟标定法测O_(2)(^(1)△)绝对浓度

O2 ( 1Δ)绝对浓度的测量 ,一直是 SOG和 COIL研究中的重要参数之一。体光源模拟标定法测 O2 ( 1Δ)绝对浓度 ,是把发光气体以某一流速引入一已知体积的流动光池中 ,再通过具有低象差失真的光学系统 ,把该体光源成象在探测器的有效表面上。探测器和测量仪器组成的测量系统 ,要经过标准光源和电学标定。本方法可测出 O2 ( 1Δ)绝对浓度及其分压 ,O2 ( 1Δ)产率等参数。其中 O2 ( 1Δ)浓度测量结果的相对误差为 2 0 %。

铝酸钠溶液中S_(2)O_(3)^(2-)浓度对12Cr1MoV钢腐蚀行为的影响

目的通过模拟氧化铝生产过程中的母液蒸发条件,研究在含S_(2)O_(3)^(2–)的铝酸钠溶液中12Cr1MoV钢的腐蚀行为,探讨S_(2)O_(3)^(2–)浓度对腐蚀的影响。方法在高压反应釜中对12Cr1MoV钢进行浸泡腐蚀,考察钢的腐蚀速率、腐蚀产物形貌、元素分布及物相组成。结合交流阻抗和极化曲线测试,分析S_(2)O_(3)^(2–)浓度对12Cr1MoV钢的腐蚀影响。结果12Cr1MoV钢的腐蚀速率随着铝酸钠溶液中S_(2)O_(3)^(2–)质量浓度的增加而加快,质量浓度由1 g/L增加至5 g/L时,腐蚀速率由0.78 g/(m^(2)·d)增加至1.67 g/(m^(2)·d)。腐蚀产物主要由Fe、O及少量的Al和S元素组成。当S_(2)O_(3)^(2–)的质量浓度小于4 g/L时,腐蚀产物主要为Fe2O3、FeO和Fe(1‒x)AlxOOH(x≤0.19);当S_(2)O_(3)^(2–)的质量浓度大于4 g/L时,产物主要为Fe3O4及少量的Al2O3。Rf和Rct随S_(2)O_(3)^(2–)浓度的升高而先增大后降低,4 g/L时达到最大值,分别为1284Ω·cm^(2)和816Ω·cm^(2);5 g/L时,Rf和Rct分别降到963Ω·cm^(2)和434Ω·cm^(2)。腐蚀电流密度随S_(2)O_(3)^(2–)浓度的升高而逐渐增大,由1 g/L增加到5 g/L时,腐蚀电流密度由25.25μA/cm^(2)增加至238.28μA/cm^(2)并达到最大。极化曲线测量与高温浸泡获得的腐蚀速率规律一致。结论铝酸钠溶液中S_(2)O_(3)^(2–)浓度对12Cr1MoV钢的腐蚀速率产生重要影响,浓度的增大会加快钢的腐蚀速率。S_(2)O_(3)^(2–)的质量浓度为4 g/L时,钢表面生成的Fe3O4层对钢基体的保护作用最好。S_(2)O_(3)^(2–)浓度越大,12Cr1MoV钢的腐蚀电流密度越大。

A Novel Way to Prepareγ-A1_2O_3 Supported SO_4^(2-)/ZrO_2 Solid Superacid Catalysts for n-Butane Isomerization

Highly active solid superacid catalysts for n-butane isomerization, SZ/A1_2O_3-P, were prepared by supporting SO-(4-2)/ZrO2, (SZ) on y-A1_2O_3 carrier using a precipitation method. The activities of some catalysts were enhanced significantly j The activity of the most active sample. 60%SZ/Al_2O3-P, was even about 2 times more active than that of the SZ catalyst.

Dynamically Securing the Data by^(1)O_(2)Sensitization of Fluorescent Composites with a High Latency and Uncrackable Features

Dynamic fluorescent materials play a crucial role in secure inks for data encryption;however,they are still plagued by issues such as photodegradation,poor latency,and susceptibility to unauthorized access.Herein,we propose a photochemically modulated dynamic fluorescent encryption system based on^(1)O_(2)sensitization of fluorescent composites,comprising a^(1)O_(2)-sensitive fluorophore(F2)and non-emissive polymers.After UV irradiation,in-situ generated^(1)O_(2)from the polymer effectively binds with F2 to form endoperoxides(F2EPO),resulting in a significant redshift in emission,up to 150 nm.The^(1)O_(2)concentration is closely related to the irradiation time,rendering different fluorescent colors in a time-gated fashion.Moreover,the emission of F2EPO can be regulated by polymer chemical structure,molecular weight,and crosslinking density.Relying on these merits,we develop a dynamic data encryption method with various non-emissive polymers as the data storage media,UV light irradiation as the data encoder,and F2 as the data decoder.UV light irradiation of diverse polymer solutions generates^(1)O_(2)at different concentrations,effectively encoding the data,which remains invisible under both UV and natural lights.The addition of F2 to these irradiated polymer solutions produces different redshifted fluorescence,enabling secure data decryption.Attributing to the non-emissive nature of the polymers,time-gated readout fashion,excellent latency of^(1)O_(2),and subtle interactions between^(1)O_(2)and F2,this data encryption is nearly undecipherable.This work offers an advantage data encryption approach beyond the reach of conventional fluorophores.

UV_(185)对偶氮染料酸性红G的降解机理研究

该文以UV_(185)为光源,研究紫外高级氧化技术对印染废水中酸性红G(ARG)的光降解反应机理。结果表明:UV_(185)对ARG降解具有显著效果,远远优于UV254光源,光照20 min后降解率可达97.4%。光照功率增加对ARG降解效果显著。酸性条件对ARG的降解速率有提升作用,碱性条件有抑制作用,pH为3.0、6.7、9.0、11.0时,反应动力学常数分别是0.261、0.174、0.151、0.093 min^(-1)。降解反应动力学过程符合准一级动力学模型,R^(2)>0.990。自由基捕获实验说明UV_(185)光照中产生的活性物种·OH和^(1)O_(2)对ARG降解贡献程度较大,而·O_(2)_(-)无贡献。台式电子顺磁共振波谱仪检测到·OH和^(1)O_(2)存在,未检测到·O_(2)_(-)。CO_(3)^(2-)、Cl^(-)对ARG的降解存在着明显的抑制作用,各加入10 mmol/L时,20 min降解率分别降至对照试验的71.0%和80.7%;NO_(3)^(-)和SO_(4)^(2-)对降解过程无明显影响。印染助剂柠檬酸钠、十二烷基苯磺酸钠的存在均显著阻碍ARG的去除。H_(2)O_(2)的存在能显著加快ARG的降解。根据UV-Vis吸收光谱显示,509 nm处吸收峰的强度不断减弱,ARG分子结构遭到严重破坏。在ARG降解过程中,共检测16种主要降解产物并提出了可能的转化路径。总有机碳数据显示,在30 min时ARG矿化度达到49.4%。

Effective peroxydisulfate activation by CQDs-MnFe_(2)O_(4)@ZIF-8 catalyst for complementary degradation of bisphenol A by free radicals and non-radical pathways

The present study reported fabrication of novel carbon quantum dots-MnFe_(2)O_(4)@ZIF-8(CQDs-MFO@ZIF-8)by using co-precipitation hydrothermal method for activation of peroxydisulfate(PDS)to degrade bisphenol A(BPA),one of important emerging organic pollutants in water environment.CQDs-MFO@ZIF-8 served as a highly efficient thermal activated PDS catalyst with high catalytic degradation efficiency,reusability and stability.The catalyst achieved almost completely removal of 20.0 mg/L BPA within 5.0 min,and the degradation efficiency remained higher than 83%after 5 consecutive cycles.Free radicals(^(·)OH,SO_(4)^(·-)and^(·)O_(2)^(-))and non-free radicals((1)O_(2))were generated in the thermal PDS-activation system,in which singlet oxygen((1)O_(2))played a dominant role in the degradation of BPA.The potential toxicity of BPA degradation intermediates was analyzed upon the culture of E.coli and Chlorella sorokiniana by using Ecological Structure-Activity Relationship Model(ECOSAR)program.The catalytic performances of BPA degradation by CQDs-MFO@ZIF-8 were evaluated for treatment of different practical water samples to further verify the feasibility of practical applications.This study provides proof-in-concept demonstration of new nanomaterials for enhanced catalytic water decontamination.

锆基卟啉金属有机框架的合成和性质研究

卟啉广泛存在于自然界,因其优异的光物理和电化学性能而备受关注.然而,卟啉的不稳定性、自猝灭和水溶性差等固有缺陷限制了它在生物学领域的应用.近年来,在金属有机框架(MOFs)中引入卟啉分子或利用卟啉作为有机连接剂构建卟啉金属有机框架(PMOFs)成为研究焦点.PMOFs既可以克服卟啉的局限性,又兼具卟啉与MOFs各自的独特性.文章通过改变反应条件,合成了3种不同形貌特征的锆基卟啉金属有机框架PCN-224,这种材料不仅保持了卟啉在红光照射下产生单线态氧(^(1)O_(2))的特点,还可作为药物载体,为PMOFs的结构调控和生物学应用提供了新思路.

ESR STUDIES ON THE SEMIQUINONE RADICAL ANIONS OF HYPOCRELLIN B AND ITS DERIVATIVES AND THE PRODUCTION OF ^(1)O_(2),O_(2)^(█*)

Ⅰ. INTRODUCTIONHypocrellins are 3, 10-dihydroxyl-4, 9-perylenequinone derivatives. They are potent inhibitors of cancer cells. Besides 1O2 and O2, other radicals could also be involved in the effects of Hypocrellins on the photosensitization of erythrocyte membranes. The ESR signal with hyperfine structures could be obtained after illumination of Hypocrellin A, B (HA,

UV/乙酰丙酮高级氧化体系降解甲基橙的反应机理研究

该文研究了UV与乙酰丙酮(AA)联用的高级氧化体系对甲基橙(MO)的降解反应机理。结果表明:UV/AA体系对MO的脱色效果远远优于UV/H_(2)O_(2)体系,当MO初始浓度为15 mg/L、AA投加量为0.5 mmol/L时,光解12 min后MO降解率可达98.4%。UV/AA体系对不同初始质量浓度MO的降解均符合零级反应动力学模型,R^(2)>0.990。当pH=2.0左右时,6 min MO降解率为99.3%,较pH=9.0左右时提升58.1%。无机阴离子HCO_(3)^(-)对体系的抑制作用较为显著,低浓度Cl^(-)轻微促进,高浓度NO_(3)^(-)会产生抑制作用,SO_(4)^(2-)对降解速率无明显影响,印染助剂柠檬酸钠对MO降解会产生明显不利影响。自由基捕获实验和电子顺磁共振测试结果表明,UV/AA体系中的活性氧化物主要为^(1)O_(2)。TOC结果显示,体系具有一定的矿化能力,UV-Vis吸收光谱分析表明,12 min时偶氮键基本被破坏,AA浓度随反应进行而降低。依据液相色谱-质谱联用仪结果提出了MO在UV/AA高级氧化体系降解过程中的可能转化途径。

Significantly enhanced piezoelectric performance in Bi_(4)Ti_(3)O_(12)-based high-temperature piezoceramics via oxygen vacancy defects tailoring

Bismuth titanate (Bi_(4)Ti_(3)O_(12),BIT)piezoelectric materials have attracted increasing attention due to their high-temperature applications.However,it is quite challenging to simultaneously achieve outstanding piezoelectric properties and high Curie temperature in BIT-based systems.In this study,oxygen vacancy defects tailoring strategy was utilized to solve this problem,excellent piezoelectric coefficient(32.1 pC/N),and ultrahigh Curie temperature(659℃)are gotten in Bi_(4)Ti_(3)-x(Mn_(1/3)Nb_(2/3))xO_(12)(BTMN)ceramics,which are among the top values in the BIT-based ceramics.More importantly,the(Mn_(1/3)Nb_(2/3))(4+d)+complex-ion modified Bi_(4)Ti_(3)O_(12)-based ceramics are characterized with excellent piezoelectric stability up to 500℃(d33>30.0 pC/N at 500℃))and significantly reduced conductivity(only~10^(-7)U-1 cm^(-1)at 500℃).Moreover,enhanced ferroelectricity and good dielectric stability were also obtained.The better comprehensive properties can be ascribed to two aspects.First,the concentration of oxygen vacancy defects is obviously reduced,and their distribution is effectively controlled in BITMN ceramics.Second,the introduction of(Mn_(1/3)Nb_(2/3))^((4+δ)+)complex-ion gives rise to the antiphase boundaries and massive ferroelectric domain walls.This works not only reveal the high potential of BITMN ceramics for high-temperature piezoelectric applications but also deepen the understanding of the structure-properties relationship in BIT-based materials.

均匀液滴的形成机理及实验研究

在均匀液滴O2(1Δ)发生器的研制过程中,发生器中液流受到外界扰动后,扰动沿着液流表面呈指数增长,最终导致液流破段成液滴。在液滴的形成过程中,各种参数的改变都将对液流的状态产生影响,最终影响O2(1Δ)发生器的总体性能。分别从理论和实验两部分对液滴的形成过程进行了对比分析:理论部分论述了液滴形成的理论依据及在发生器中,外界扰动频率、液流喷射流速的改变对扰动增长率的影响及影响趋势;实验部分以成像的方式着重分析了在相同条件下,分别改变扰动频率、液流喷射流速,液滴流的状态及趋势。实验结合理论,寻求可控参数范围,为均匀液滴发生器的液流研究提供依据。

超薄硫掺杂石墨相氮化碳纳米片光催化降解双酚A

内分泌干扰物双酚A(BPA)的广泛分布对水环境和人类健康造成了潜在的威胁.为探究超薄硫掺杂的石墨相氮化碳纳米片(US-CN)对BPA的光催化降解性能及其降解机理,使用US-CN对BPA进行了光催化降解,使用电子顺磁共振(EPR)检测了光降解过程中产生的反应性氧自由基(ROS),通过密度泛函理论(DFT)结合自然布局分析(NPA)计算了BPA的原子电荷值,使用LC-MS检测了BPA光催化降解过程的中间产物.结果表明:①US-CN在可见光(VL)下(简称“US-CN/VL体系”)100 min内对BPA的去除率可达66.39%,去除率的准一级反应动力学常数约为石墨相氮化碳(CN)的6倍.②在US-CN/VL体系中添加L-组氨酸后,60 min内BPA的去除率从50.00%降至6.45%,表明单线态氧(^(1)O_(2))是导致BPA降解的主要ROS.③在US-CN/VL体系中,^(1)O_(2)可能由超氧自由基或溶解氧转化产生.④基于密度泛函理论计算了BPA分子易被^(1)O_(2)攻击的富电子原子位点,并检测出BPA的5种降解中间产物,推测BPA在US-CN/VL体系中可能存在去甲基化和羟基化两种降解路径.研究显示,US-CN在可见光下能产生以^(1)O_(2)为主的ROS,攻击BPA的富电子原子,对BPA有良好的光催化效果.

长寿命铝电解电容器用化成箔制备工艺研究

通过阳极氧化法将高压腐蚀箔在磷酸水溶液中低温氧化形成前置氧化多孔膜,在前置氧化膜的基础上采用低温、低浓度的硼酸或氢氧化钠溶液进行小电流化成,可制备长寿命铝电解电容器用化成箔。X射线衍射(XRD)和扫描电子显微镜(SEM)测试结果表明:高压腐蚀箔在前置氧化膜基础上形成的化成箔表面氧化膜为较疏松的无定型氧化膜。经过电容器老练对比试验表明,化成箔中无定型氧化膜更容易被电容器中电解液修复,并且在老练和耐久性试验时的高温作用下,疏松的无定型氧化膜可以部分转化为致密的晶型氧化膜(γ^(1)-Al_(2)O_(3)),使电容器容量得到提升,损耗和漏电流长时间保持稳定,电容器的性能得到较大改善。