半焦吸附剂烟气脱硫脱硝性能

采用廉价半焦为原料,经硝酸氧化和高温热处理改性后,负载金属氧化物制备半焦吸附剂,考察吸附剂的脱硫脱硝性能和再生性能,并利用BET、TEM和TPD等手段研究影响半焦吸附剂性能的内在因素.结果表明,当烟气组成为NO-O2-N2时,吸附剂具有良好的脱硝性能,失活吸附剂经水洗再生后,脱硝活性恢复较好;当烟气组成为SO2-O2-...     

TiO2基固体超强酸的制备及光催化性能研究

半导体氧化物TiO2对很多有机污染物吸附较强、催化氧化活性高,因此它在环境污染治理方面扮演极其重要的角色,被广泛用于光催化处理多种有机物,但常规二氧化钛半导体光催化剂较低的量子效率(约4%)使其应用受到一定程度的制约[1]。1979年H ino[2]等首次报道无卤素型SO42-/M xO y固体超强酸体系以来,引起化学工作者极大关注。固体超强酸催化剂如SO42-/TiO2,SbF5/SiO2/TiO2等是一类新型酸催化剂,广泛用于酯化反应、苯衍生物烷基化、烯烃齐聚等。研究发现,基于SO42-改性的TiO2固体超强酸催化剂对于有机物具有较高的光催化氧化活性[3,4],…     

溶剂热法制备BiFeO_3基纳米颗粒光催化剂及其性能

以聚酰胺-胺(PAMAM)树形分子为稳定剂,采用溶剂热法制得了纯相BiFeO_3纳米颗粒(A)和BiFeO_3/Bi_(25)FeO_(40)/Fe_2O_3复合纳米颗粒(B),并采用HRTEM、XRD、UV-Vis、SQUID对其结构和性能进行了表征。2种颗粒结晶良好,粒径小于10 nm,能有效光催化降解亚甲基蓝,磁性回收率分别为74.6%(A)和90.2%(B)。BiFeO_3/Bi_(25)FeO_(40)/Fe_2O_3复合纳米颗粒的光催化与磁性能均优于纯相BiFeO_3纳米颗粒,是因为复合纳米颗粒含有多种相,相界面存在异质结构有利于光生载流子的分离和迁移,并且对可见光的吸收能力更强。     

SO42-改性后的TiO2(锐钛和/或金红石)表面上MoO3的分散性质研究

采用红外(IR)、拉曼(Raman)、X-射线衍射(XRD)、程序升温还原(TPR)等方法考察了经硫酸根改性后的金红石(SR)与锐钛矿(SA)的混合比例变化时的负载型催化剂，MoO₃ / TiO₂(SR+SA)，的一些物理化学性质(如活性组分MoO₃的分散行为、表面酸碱性、氧化还原性)的变化规律。结果表明：对于MoO₃ / TiO₂(SR+SA)样品，低含量MoO₃表面分散时倾向于优先与混合载体中的改性金红石(SR)发生作用；TiO₂载体表面SO₄^2-的存在，使得载体表面产生了新的酸性位，导致样品中表面分散的钼物种主要以聚合八面体状态存在。     

正交层状LiMnO2在电化学循环过程中的相变和活化特性

用高精度非原位XRD结合Rietveld结构精修对固相法制备的正交层状LiMnO₂(简写为o-LiMnO₂)在电化学循环过程中的相变进行了研究。结果表明：首次循环就出现相变,循环5次后o-LiMnO₂相变完全;产物中除了有类尖晶石型锰酸锂(Li_0.86Mn_0.14)(Mn_0.92Li_0.08)₂O₄(Fd3m)外,还证实了文献的理论计算和晶体学推测出的岩盐型锰酸锂(Li,Mn)O₂(Fd3m)的存在;并定量计算了两物相的相含量。证实两物相均参与了电化学循环,其中类尖晶石型锰酸锂对电化学容量的变化起主要作用;岩盐型锰酸锂在电化学循环过程中逐渐向类尖晶石型锰酸锂转变,使电极的放电容量不断增加,这种转变停止时,放电容量达到最大,活化过程结束。     

溶胶-凝胶法低温制备N掺杂TiO2可见光光催化剂

为了满足低温制备可见光光催化材料的需要,采用溶胶-凝胶法制备TiO₂纳米晶溶胶,再与聚乙烯基吡咯烷酮(PVP)直接反应制备N掺杂TiO₂可见光光催化剂。通过XPS分析,说明N取代了部分晶格中的O,UV-Vis漫反射吸收光谱显示,光催化剂具有明显的可见光响应,这是由于N原子的2p轨道位于O原子的2p轨道之上,从而使得价带和导带间的能量带隙变窄,引起吸收带红移,产生明显的可见光吸收。依靠亚甲基兰(MB)的可见光降解实验证明,N掺杂光催化剂具有良好的可见光光催化活性,16 h MB降解率接近25％。     

一种SO2固定及用于制备BaSO3或BaSO4的方法

在常温常压下,由乙二胺（EDA）和乙二醇及其衍生物（EGs）组成的混合体系可捕集SO₂并转化为一种SO₂储集材料（SO₂SM）。EDA+EGs体系呈现了强的捕集性能（0.364~0.662 g_SO2·g_absorbent^-1）。FTIR,XPS和XRD结果确证了SO₂SM为一种烷基亚硫酸盐。以EG-SO₂SM为原料制备具有多种形貌的BaSO₃或BaSO₄,在此过程中,EG-SO₂SM不仅提供了原材料,而且可以释放EDA和EG用作表面活性剂,调控晶体的结晶化过程。     

共沉淀法制备LiMn_xCo_yO_2的显微结构及其电化学性能

通过共沉淀法制备前驱体,随后在900℃下经不同时长烧结得到了层状LiMn_xCo_yO_2。X射线衍射、扫描电镜和透射电镜的研究结果表明,层状LiMn_xCo_yO_2的晶体结构是菱面体点阵,空间群是R3m,点阵常数与LiCoO_2非常接近。不同烧结时长下得到的样品在扫描电镜下均呈球状,随着烧结时间延长,球形规整度变得更好。对不同样品的电化学性能测试表明,烧结时间越长,样品中Mn的相对含量越高,其首次充放电比容量和循环性能越好。     

一种SO2固定及用于制备BaSO3或BaSO4的方法

在常温常压下,由乙二胺（EDA）和乙二醇及其衍生物（EGs）组成的混合体系可捕集SO₂并转化为一种SO₂储集材料（SO₂SM）。EDA+EGs体系呈现了强的捕集性能（0.364~0.662 g_SO2·gabsorbent^-1）。FTIR,XPS和XRD结果确证了SO₂SM为一种烷基亚硫酸盐。以EG-SO₂SM为原料制备具有多种形貌的BaSO₃或BaSO₄,在此过程中,EG-SO₂SM不仅提供了原材料,而且可以释放EDA和EG用作表面活性剂,调控晶体的结晶化过程。     

溶剂热法制备BiFeO3基纳米颗粒光催化剂及其性能

以聚酰胺-胺（PAMAM）树形分子为稳定剂,采用溶剂热法制得了纯相BiFeO₃纳米颗粒（A）和BiFeO₃/Bi₂₅FeO40/Fe₂O₃复合纳米颗粒（B）,并采用HRTEM、XRD、UV-Vis、SQUID对其结构和性能进行了表征。2种颗粒结晶良好,粒径小于10 nm,能有效光催化降解亚甲基蓝,磁性回收率分别为74.6%（A）和90.2%（B）。BiFeO₃/Bi₂₅FeO40/Fe₂O₃复合纳米颗粒的光催化与磁性能均优于纯相BiFeO₃纳米颗粒,是因为复合纳米颗粒含有多种相,相界面存在异质结构有利于光生载流子的分离和迁移,并且对可见光的吸收能力更强。     

Long-Term Antibacterial Film Nanocomposite Incorporated with Patchouli Essential Oil Prepared by Supercritical CO2 Cyclic Impregnation for Wound Dressing

Biocompatible skin wound dressing materials with long-term therapeutic windows and anti-infection properties have attracted great attention all over the world. The cooperation between essential oil and non-toxic or bio-based polymers was a promising strategy. However, the inherent volatility and chemical instability of most ingredients in essential oils make the sustained pharmacological activity of essential oil-based biomaterials a challenge. In this study, a kind of film nanocomposite loaded with patchouli essential oil (PEO-FNC) was fabricated. PEO-loaded mesoporous silica nanoparticles (PEO-MSNs) with drug load higher than 40 wt% were firstly prepared using supercritical CO₂ cyclic impregnation (SCCI), and then combined with the film matrix consisting of polyvinyl alcohol and chitosan. The morphology of PEO-MSNs and PEO-FNC was observed by transmission and scanning electron microscope. The mechanical properties, including hygroscopicity, tensile strength and elongation at break (%), were tested. The release behavior of PEO from the film nanocomposite showed that PEO could keep releasing for more than five days. PEO-FNC exhibited good long-term (>48 h) antibacterial effect on Staphylococcus aureus and non-toxicity on mouse fibroblast (L929 cells), making it a promising wound dressing material.     

Removal of SO2 from Gas Streams by Oxidation using Plasma-Generated Hydroxyl Radicals

The key problem for the removal of SO₂ by electrical discharge methods is how to obtain the hydroxyl radicals at high concentration and large production rates. With the micro-gap discharge method, O₂ and H₂O in simulated gas streams (N₂/O₂/H₂O/SO₂) are ionized into a large number of OH^. radicals to oxidize SO₂ into SO₃ which reacts with H₂O forming H₂SO₄ droplets at 120 °C in the absence of any catalyst or absorbent. The droplets are captured with an electrostatic precipitator. As a result, conversion of SO₂ to primarily H₂SO₄ is limited by the generation of OH^. radicals. By increasing the reduced field and concentrations of O₂ and H₂O, the amount of OH^. radicals increase resulting in more removal of SO₂ from gas streams. The removal efficiency of SO₂ reaches 100% when the residence time is only 0.74 s. Therefore, a new gas-phase oxidation method for removal of SO₂ without NH₃ additive is found.     

Combined Effects of Pulsed Discharge Removal of NO,SO2, and NH3 from Flue Gas

Experiments have been performed using pulsed high-voltage discharges with the aim of removing NO and SO ₂ from flue gas obtained from a methane burner. It is found that the NO conversion is strongly increased by the addition of SO ₂ or NH ₃ . When both gases are added simultaneously the increase almost disappears. The synergetic effect can be maintained, as is shown, when NH ₃ is introduced much later than SO ₂ . The SO ₂ removal is already 70% upon stoichiometric addition of NH ₃ , but the electric discharge improves this to >95% and reduces the NH ₃ leak to a few ppm. This increase is probably related to aerosol production by the pulsed discharge which enhances the ammonium salt production. A so-called history effect is observed, i.e., the removal of NO and SO ₂ depends on the time that is taken to reach the required energization. It appears that the discharge has to create favorable conditions for the cleaning process. Using the synergetic and history effects the best cleaning result, at initial concentrations of 300 ppm, is 80% NO removal and 95% SO ₂ removal with 3 ppm NH ₃ leak. In this case the energy cost is 13 eV/NO (or a yield of 90 g NO and 200 g SO ₂ per kWh). Possibilities for further improvement are indicated.     

Synthesis of Cyclic N-Acyl Amidines by [3 + 2] Cycloaddition of N-Silyl Enamines and Activated Acyl Azides

In this study, we describe the synthesis of cyclic N-acyl amidines from readily available N-heteroarenes. The synthetic methodology utilized the versatile N-silyl enamine intermediates from the hydrosilylation of N-heteroarenes for the [3 + 2] cycloaddition reaction step. We evaluated various acyl azides and selected an electronically activated acyl azide, thereby achieving a reasonable yield of cyclic N-acyl amidines. We analyzed the relationship between the reactivity of each step and the electronic nature of substrates using in situ nuclear magnetic resonance spectroscopy. In addition, we demonstrated gram-scale synthesis using the proposed methodology.     

Effects of MN4-Type Coordination Structure in Metallophthalocyanine for Bio-Inspired Oxidative Desulfurization Performance

Oxidative desulfurization (ODS) is the promising new method for super deep desulfurization of fuel oil. The oxidative desulfurization performance of the metal-N₄-chelates metallophthalocyanines (MPcs) is related to the chemical properties of conjugate structures and the central metal ions. Herein, a biomimetic catalytic system composed of metallophthalocyanines (MPcR₄, M = Mn(II), Fe(II), Co(II), Ni(II), Cu(II), Zn(II); R = -H, -COOH, -NO₂, -NH₂) and molecular O₂ was performed to study the influence of MN₄-type coordination structure in metallophthalocyanines for the degradation of dibenzothiophene (DBT) in model oil containing n-octane. The results reveal that the conjugate structures and the center metal ions of metallophthalocyanines played key roles in oxidative desulfurization performance. The inductive effect of different R substituents strongly affected the electron cloud distribution of the conjugate structures and the catalytic performance. Moreover, the catalytic activity of MPcs, which is related to the d electronic configuration and ligand-field effects, does not sequentially increase with the increase in the d electron number of central metal ions.     

SO2气氛下半焦负载Zn/Fe/Ce高温煤气脱硫剂的再生行为研究

以共沉淀法制备了半焦负载Zn/Fe/Ce（物质的量比1.0：2.0：0.6）高温煤气脱硫剂,在固定床装置上研究了再生反应温度、进口SO₂浓度以及再生气空速对再生性能的影响,并进行三次硫化-再生循环测试。采用XRD、SEM、BET等测试手段对脱硫剂的新鲜样、硫化样及再生样进行了表征。实验结果表明,半焦负载Zn/Fe/Ce高温煤气脱硫剂在SO₂气氛下600 ℃就能发生再生反应,且再生后的主要产物为ZnFe₂O₄、CeO₂和单质硫;最佳再生条件为,再生温度700 ℃、进口SO₂体积分数为12%、再生气空速为5 000 h^-1。脱硫剂经过多次硫化-再生循环后,脱硫剂仍能保持较好的硫化活性。     

TiO_2光催化失活复活特性与表面NO_3~-浓度的关系

以乙醛作为活性标的,通过人为控制表面附着NO3-浓度,检测TiO2对乙醛的吸附能力和光催化降解能力,得出了TiO2光催化失活复活特性和表面附着NO3-浓度的定量关系。结果表明,表面附着NO3-浓度达到4.24wt%时,光催化降解能力降低50%;表面附着NO3-浓度达到10.50wt%时,TiO2的吸附能力降低50%;通过溢流状态下水洗2h,可除去98%的表面附着NO3-,使TiO2光催化活性复活。     

脱硫化氢活性炭的再生方法研究

采用了溶剂再生法和气体再生法对脱硫化氢失活后的活性炭进行再生,溶剂再生时所用的溶剂为H2O2溶液、HNO3溶液以及NaOH溶液。结果表明,NaOH溶液不能使活性炭得到再生,而H2O2溶液、HNO3溶液能够通过氧化的方法使活性炭得到再生。气体再生时所用的气体分别为高纯N2,含20%O2的N2,H2,它们再生的原理分别是热再生,通过氧化单质硫再生和通过还原单质硫再生。再生效果最好的是30%的HNO3溶液和H2,它们能将活性炭孔道内的单质硫分别脱出69.8%和81.2%,再生后的活性炭中硫容量能达到原来的70%以上。再生后活性炭的比表面积和pH值是再生性能的两个重要指标。     

PW_(11)M(M=Cu、 Co)@TiO_2多相催化剂的制备及氧化脱硫性能

以过渡金属(Cu, Co)取代磷钨酸为模板剂,硫酸钛为钛源,通过一步模板法合成出一类多酸基PW_(11)M(M=Cu、 Co)@TiO_2材料,采用FT-IR、 XRD、 XPS、 Raman、 SEM和TEM表征手段对材料进行了结构表征.结果表明, PW_(11)M(M=Cu、 Co)被引入到TiO_2中,形成了球形核壳结构. N_2吸附-脱附测试表明, PW_(11)Co@TiO_2具有介孔结构:孔径大小为3.3 nm,比表面积为72.4 m~2/g.在以H_2O_2为氧化剂,乙腈为溶剂的氧化脱硫反应体系中考察了其催化活性,结果表明:复合材料PW_(11)M(M=Cu、 Co)@TiO_2表现出良好的催化性能.其中催化剂PW_(11)Co@TiO_2在投入量为40 mg,反应底物为500 ppm,反应温度60℃,反应40 min后, DBT的脱硫率达到99.7%.中断和循环实验表明,催化剂PW_(11)Co@TiO_2具有良好的稳定性,在相同的反应条件下,循环反应5次后,催化剂的催化活性没有明显下降.