MTi-LDH(M=Zn,Ni)的制备及其对乙硫醇的吸附性能研究

TiO_(2)是环境催化领域最常用、应用最广泛的催化剂之一,但其表面羟基常显酸性,限制了其在乙硫醇等酸性气体中的吸附性能。用Zn和Ni元素对其进行修饰,构建ZnTi-LDH、NiTi-LDH等钛基层状双金属氢氧化物,在对其结构特征进行表征的基础上,选择甲烷气中的乙硫醇为研究对象,研究二元的钛基层状双金属氢氧化物对甲烷气中乙硫醇的吸附作用,及层状化合物的层板和表面酸碱性等对乙硫醇吸附性能的影响。研究结果表明,采用固定床反应器动态吸附乙硫醇,发现ZnTi-LDH的穿透硫容为8.04 mg·g^(-1),而NiTi-LDH的吸附性能要优于ZnTi-LDH,其穿透硫容为13.79 mg·g^(-1)。该催化剂优异的吸附脱硫活性使其在工业应用上具有一定的前景。

Ag_(2)O-NiTi-LDH复合材料的构建及其光催化氧化乙硫醇性能研究

本文将氧化银(Ag_(2)O)负载到镍-钛层状双金属氢氧化物(NiTi-LDH)上以构建Ag_(2)O-NiTi-LDH复合材料。通过XRD、SEM、TEM、XPS、UV-vis、电化学工作站和FT-IR等技术对样品进行表征。采用静态吸附-光催化的方法对乙硫醇进行吸附氧化降解。结果表明:复合材料中Ag_(2)O和NiTi-LDH之间存在相互作用,使得Ag_(2)O-NiTi-LDH复合材料比单一基体材料的带隙能小,光生电子-空穴的分离和迁移效率高;在光催化实验中,单一的基体材料NiTi-LDH对乙硫醇的光催化效果不明显,Ag_(2)O和Ag_(2)O-NiTi-LDH虽然都能将乙硫醇光催化氧化成硫酸盐,但Ag_(2)O-NiTi-LDH复合材料光催化氧化降解效率高于Ag_(2)O。

硫醇加成/氧化构建具稳定阻转异构体的萘醌化合物

轴手性是自然界的本征特性之一,在有机化学和药物化学研究中具有重要意义。醌类化合物广泛存在于天然产物、药物和其他功能性分子中,对构建含稳定阻转异构体的醌类化合物有重要研究价值。(1,2′-联萘)-1′,4′-二酮为一类含有C—C手性轴的化合物,但与常见的2,2′-双取代的1,1′-联萘不同,其手性轴的旋转能垒较小,室温下构型不稳定,故通过简单高效反应构建具稳定阻转异构体的1,2′-联萘醌是一项有吸引力的课题。本文以不同位阻取代的(1,2′-联萘)-1′,4′-二酮为底物,Cu(OAc)_(2)为助氧剂,EtOH为溶剂,在Et_(3)N的作用下,通过硫醇的加成/氧化反应直接构建了一系列具有稳定阻转异构体的联萘醌衍生物,共经^(1)H NMR,^(13)C NMR和HR-MS表征。

Ni-Ti-LDHs的合成、表征及其对乙硫醇的吸附性能

天然气中乙硫醇的脱除是一项研究重点课题。采用共沉淀法合成Ni-Ti-LDHs,对样品进行XRD、SEM、FT-IR、TG-DTA测试与表征,通过动态吸附法评价Ni-Ti-LDHs对乙硫醇的吸附性能。研究结果表明,通过共沉淀法合成的Ni-Ti-LDHs具有层状结构,其层间为NO3-,层状Ni-Ti-LDHs对乙硫醇的穿透吸附量为19.74 mg/g。碱性层状Ni-Ti-LDHs对乙硫醇有较好的吸附性能。

延迟焦化装置液化石油气降低总硫技术改造总结

中国石油化工股份有限公司镇海炼化分公司1号产品精制装置焦化液化石油气脱硫脱硫醇系统,通过使用脱羰基硫溶剂UDS、纤维膜换代、投用碱液再生系统,解决了精制焦化液化石油气羰基硫高、脱硫醇效果差、碱渣外排量高等问题,使得焦化液化石油气羰基硫脱除率达到90%以上,精制焦化液化石油气产品羰基硫的质量浓度由99 mg/m^(3)降至10 mg/m^(3)以内,远低于去气分装置回收丙烯的质量要求(质量浓度不大于60 mg/m^(3))。自投用运行以来,回收焦化液化石油气中丙烯,每年可增加经济效益约4063万元。为同类装置焦化液化石油气降低总硫工艺优化提供了参考借鉴。

汽油中大分子硫醇催化转化反应过程强化

选择性脱除加氢后催化裂化汽油中的大分子硫醇硫,是低成本高效生产国六清洁汽油的有效方法。采用孔饱和浸渍法制备孔径不同的CoMo/Al2O3加氢催化剂,破碎至不同粒径后,对其进行硫化处理;在固定床反应器中分别使用模拟催化裂化汽油和加氢后催化裂化真实汽油进行评价,并考察工艺条件对催化剂脱除大分子硫醇的反应效果,采用原位吸附反应过程强化方法,强化大分子硫醇的选择性脱除。结果表明:加氢后催化裂化汽油中的硫醇是汽油中烯烃与硫化氢化合生成的大分子硫醇,种类多,每一种硫醇的含量低;再生成硫醇的脱除反应在低温下受传质限制,硫化氢与烯烃再生成硫醇的化学反应达到热力学平衡,依靠目前MoS2类催化剂无法高效脱除,通过减小催化剂粒径和增大催化剂孔径的手段可有效减弱硫醇脱除反应的扩散限制,提高催化剂硫醇脱除效果,同时通过原位吸附反应过程强化方法将硫醇脱除反应过程中生成的硫化氢移出反应区,避免硫化氢与烯烃再结合反应发生,可以在反应温度160℃、体积空速4h−1、反应压力0.3MPa、氢油体积比10的缓和条件下高效脱除大分子硫醇,低成本生产清洁汽油。

叔十二碳硫醇合成研究进展

叔十二碳硫醇(TDM)是一种在橡胶、树脂等生产中用于控制聚合物分子量的链调节剂,国内需求几乎全部依赖进口,迫切需要开发经济环保的TDM合成技术。目前,TDM的合成主要取决于原料碳源和催化剂类型的选择。介绍了TDM合成技术的发展现状,总结了适用于高碳硫醇合成的催化剂类型,对比了各类催化剂的优缺点,并指出了适用于TDM合成的不同体系催化剂的未来发展趋势。

没食子提取物对体外口腔异味影响的研究

目的:探究没食子提取物对于口腔主要致臭菌变形链球菌和牙龈卟啉单胞菌的作用,以及对硫化物的抑制作用。方法:培养变形链球菌和牙龈卟啉单胞菌菌群,抑菌环法评估没食子对菌群的抑制作用,观察没食子提取物对变形链球菌产生的不溶性葡聚糖的影响,最后检测没食子对致臭物质甲硫醇的作用。结果:没食子组与氯己定组可显著降低变形链球菌和牙龈卟啉单胞菌抑菌环直径(均P<0.05),抑制不溶性葡聚糖的产生(P<0.05),而两者之间比较无统计学差异(P>0.05);没食子提取物可以显著降低甲硫醇的产生,与空白对照组和氯己定组比较有统计学差异(均P<0.05)。结论:没食子提取物可以去除口腔异味,又可以提供持续的口腔健康控制,是一种优良的口腔维护中药。

仿生混合润湿图案表面的制备及其水收集性能

目的全球淡水资源短缺,高效和环保地获取淡水是一项重大挑战。方法受沙漠甲虫和叶脉的启发,采用氨腐蚀法在铜网表面生长一层氢氧化铜纳米带,随后在氢氧化铜表面覆盖掩膜,使局部附着正十二烷基硫醇分子,制备出仿生混合润湿图案表面,采用接触角测量仪、扫描电子显微镜(SEM)、X射线衍射仪(XRD)及傅里叶变换红外光谱仪(FT-IR)分别对样品的润湿性、表面形貌及化学成分进行分析,以仿生混合润湿图案表面为基础搭建雾水收集装置,模拟潮湿环境来表征样品的水收集速率及样品在不同恶劣环境下的稳定性。结果在亲水表面构建疏水图案为后续实验提供了基础,所制备的仿生混合润湿图案表面与原始表面、亲水表面、超疏水表面的集水速率相比分别提高了146%、111%、61%,有效提高了集水速率,水收集速率与图案尺寸、图案间隔成反比关系,与图案形状无关。仿生混合润湿图案表面经过紫外线照射和100℃加热处理后,仍保持稳定的集水性能。结论样品具有制备简单、成本低廉、高效耐用等优点,在大气集水中具有潜在的应用前景,有望为解决水资源短缺问题提供新思路。

Investigation of factors on a fungal biofilter to treat waste gas with ethyl mercaptan

The biofilter is cost-effective for the waste gases treatment. The bacterial is the main microorganism in the conventional biofilters. However, it faces some problems on the elimination of hydrophobic compounds. In order to overcome these problems, the biofilters with fungi were developed. The objective of this study is to investigate the factors affecting ethyl mercaptan(EM)-degradation using a fungal biofilter. A laboratory experiment was set up. The effects of loading rate, empty bed residence times(EBRT) and pH on EM degradation were investigated. Over 95% removals of EM could be achieved, under the condition of the influent loadings below 50 g/(m·h). Removal efficiencies improved to 98% with EM loading decreased to 45 g/(m·h). For long EBRT of 58 s corresponding to a flow rate of 0.3 m3/h, the EM removal efficiencies of over 98% were observed. However, when EBRT was decreased to 14 s, the removal efficiencies fell under 80%. The pH range of 3—5 was feasible to fungi.

Tailoring the mercaptan ligands for high performance inverted perovskite solar cells with efficiency exceeding 21%

Interface passivation engineering has been recognized as an effective way to simultaneously contribute to the optoelectronic characteristic and stability of perovskite solar cells(PSCs). Herein, a p-conjugated dual-ligand 1,4-phenylmercaptan(PHMT) is explored to rationally tailor the surface of perovskite film.The experimental and theoretical results show that the PHMT presents planar structure and obvious electron delocalization characteristics, which allow it to anchor on the surface of perovskite with a certain orientation, thereby promoting the transport of interface charge. Moreover, the two sulfhydryl groups in PHMT reduce the trap density of the perovskite film by passivating under-coordinated lead ions.Consequently, the PHMT-modified inverted device based on MAPbI_(3)(MA: methylammonium) achieves enhanced efficiency from 18.11%(control) to 21.11%, along with the ambient stability up to 3500 h.After being placed at 85 °C for 500 h or illuminated for 600 h, the modified device remains over 89%or 86% of initial efficiency. This discovery opens a new window for the choice of passivators to improve the performance of PSCs.

Activated Carbons Containing Dispersed Metal Oxide Particles for Removal of Methyl Mercaptan in Air

Activated carbons containing dispersed metal oxide particles were prepared by carbonization of phenol resin containing metal compounds followed by steam activation. Acetylacetonates of Fe, Mn and V, and Cu nitrate were used as the sources of metals. The removal of a small amount of methyl mercaptan (CH3SH) in air with these activated carbons was tested in a flow system. Compared with activated carbons without metal oxides, the carbons exhibited high activity for the removal of CH3SH in air. In particular, activated carbon obtained from Novolac containing 5 wt% Cu showed excellent behavior over a long time.

Oxidation of Mercaptans from Light Oil Sweetening by Fe_2O_3/MgO/Al_2O_3 Supported CoPcS Catalyst

MgO/Al2O3 and Fe2O3/MgO/Al2O3 solid bases were prepared through mixing method. After sulfonated cobalt phthalocyanine （CoPcS） being supported on these solid bases, the catalytic performance of these catalysts was evaluated by means of mercaptan oxidation reaction. The samples were characterized by X-ray diffraction （XRD）, CO2 temperature-programmed desorption （CO2-TPD）, FTIR spectroscopy, and X-ray photoelectron spectroscopy （XPS）. Investigation was focused on the effect of Fe2O3 on activity, crystal structure, basicity, and stability of the catalyst and also on the role of Fe2O3 in the mercaptan oxidation processes. Test results have shown that the Fe2O3/MgO/Al2O3- CoPcS catalyst has a higher initial activity and a much longer service life than the MgO/Al2O3-CoPcS catalyst. The increased types of basic sites coupled with an enhanced oxidation ability resulted from the addition of Fe2O3 have contributed to the improvement of the catalytic activity of the MgO/Al2O3-CoPcS catalyst.

Biobased Aromatic-Aliphatic Polyols by Thiol-Ene Reactions of Propoxylated Mercaptanized Cardanol

Aromatic-aliphatic polyols were obtained previously from the thiol-ene reactions of propoxylated cardanol with hydroxyalkyl mercaptans;these aromatic-aliphatic polyols were then utilized in the preparation of rigid polyurethane foams with excellent properties.The current work describes a variant of cardanol polyol synthesis by thiol-ene reactions in three steps.The first step is propoxylation of cardanol by reacting cardanol with propylene oxide;the second step is mercaptanization of propoxylated cardanol by reacting double bonds with hydrogen sulfide;and the third step involves the addition of the thiol groups of mercaptanized propoxylated cardanol to the double bonds of allyl alcohol,glycerol-1-allyl ether,and trimethylolpropane allyl ether.Thus,obtained polyols were characterized by standard analytical methods.Rigid polyurethane foams prepared from these polyols show promising physical-mechanical properties.The rigid polyurethane foams can be used for various applications such as thermo-insulation of freezers,storage tanks and pipes for food and chemical industries,wood substitutes and flotation materials.

INTERACTION OF PLASMA-LIQUID IN AN OXYGEN GLOW DISCHARGE Ⅱ. OXIDATION DESULFURIZATION OF ISOBUTYL MERCAPTAN

A few factors affecting plasma oxidation desulfurization of isobutyl mercaptan were investigated. Under the reasonable condition, the conversion and degree of desulfurization of isobutyl mercaptan can be achieved up to over 95% and 94％ respectively.

Effect and Influence of Aryl Mercaptanes with Various Chain Lengths on DNA/RNA and Cadmium Oxide (CdO) Nanoparticles Sandwiched Complex

CdO(cadmium oxide)nanoparticles show a strong peak of Plasmon absorption in ultraviolet-visible zone.A strong interaction exists between the surface of CdO nanoparticles and aryl mercaptan compounds.Aryl mercaptan compounds cause aggregation of CdO nanoparticles linked to DNA/RNA(eoxyribonucleic acid/ribonucleic acid)and hence,lead to widening of peak Plasmon of CdO nanoparticles surface at 550 nm and emerge a new peak at higher wavelength.In the current project,this optical characteristic of CdO nanoparticles is used to investigate interaction time between different aryl mercaptanes and CdO nanoparticles.The results showed that aryl mercaptan compounds with shorter chain length interact faster with CdO nanoparticles.Therefore,a simple and fast method for identification of aryl mercaptanes with various chain lengths using red shift in surficial Plasmon absorption is presented.

硫氨酯捕收剂的制备及浮选性能

为解决硫氨酯捕收剂制备过程中副产品处理困难、存在污染等问题,设计了四种新工艺制备乙硫氨酯(IPETC),分别联产对叔丁基苄基硫醇(BBSH)、苄基三硫代碳酸盐(BTTC)、苄硫基乙基黄药(SBEX)、二苄基二硫醚.在优化的合成工艺条件下,合成IPETC联产BBSH,得到含IPETC和BBSH的复合捕收剂,其中IPETC的质量分数为51%,BBSH的质量分数为41%,IPETC和BBSH的收率达到95%;合成IPETC联产BTTC,IPETC和BTTC的收率分别达到94%和95%,纯度分别为91%和82%;合成IPETC联产SBEX,IPETC的收率和纯度分别达到89%和95%,SBEX的收率和纯度分别为93%和91%;合成IPETC联产二苄基二硫醚,IPETC的收率和纯度分别达到93%和92%,二苄基二硫醚的收率和纯度分别达到95%和94%.考察了制备的复合捕收剂(IPETC与BBSH)对铜钼矿的浮选性能,结果表明,复合捕收剂对铜钼矿表现出良好的捕收性能.联产的新型捕收剂SBEX、BTTC对黄铜矿的捕收力略强于异丁基黄药,对黄铁矿具有较好的选择性,可替代异丁基黄药浮选硫化铜矿.红外光谱和X射线光电子能谱分析结果表明,SBEX、BTTC与黄铜矿作用时,捕收剂分子中的C=S和C—S与矿物表面的金属Cu作用,生成捕收剂与铜的表面络合物吸附在黄铜矿的表面.

功能纤维对臭气中甲硫醇的吸附行为研究

采用化学改性、负载金属铜的方法制得钠型羧基载铜功能纤维,采用动态吸附法考察pH值、甲硫醇初始浓度、反应床温度对功能纤维吸附甲硫醇的净化效果及吸附动力学,通过SEM等方法揭示功能纤维吸附机理。结果表明,功能纤维对甲硫醇去除率达到99.99%,在甲硫醇初始浓度214.73 mg/m^(3),温度30℃,pH值12.54的条件下,功能纤维对甲硫醇的吸附量最高,达到1.61 mg/g,吸附符合准一级动力学模型。二次再生不影响钠型羧基载铜纤维对甲硫醇的吸附净化性能。

天然气中硫醇的深度脱硫溶剂研发与工业应用

GB 17820—2018《天然气》实施后,原料气气质中有机硫含量较高(大于20 mg/m^(3))的净化厂采用了有机硫脱除技术,以满足标准中一类气的指标要求。但从国内外有机硫脱除技术的应用情况来看,对于RSH含量高(大于30 mg/m^(3))的原料气,还存在对硫醇脱除率不高的问题,产品气总硫有超标的风险。为此,基于理论计算,开展了RSH脱除机理研究,揭示了硫醇与砜胺溶剂体系的反应机理,通过改善脱硫溶剂中关键组分的亲核性来提升溶剂对硫醇的化学吸收,研发出了一种新型的硫醇深度脱除溶剂。研究结果表明:(1)通过对醇胺分子结构改进,自主合成了分子结构中N原子具有强亲核性的新组分,形成了硫醇深度脱除溶剂,可促进其对硫醇的离解,提高硫醇脱除率。(2)在实验室条件下考察了不同压力、不同气液比条件下硫醇深度脱除溶剂的性能,压力低至1.5MPa,该溶剂对硫醇脱除率大于90%;气液比高达1200时,该溶剂对硫醇脱除率大95%。(3)在天然气净化厂工业应用中,在原料气硫醇含量超过300 mg/m^(3)的条件下,经硫醇深度脱除溶剂净化后,产品气总硫低于5 mg/m^(3),硫醇脱除率超过99%。结论认为,该技术可应用于硫醇含量高的天然气净化处理,技术的推广应用对我国天然气气质升级以及天然气长输管道的安全平稳运行具有重要意义。

二烷基二硫醚用途及合成方法研究进展

二硫醚广泛应用于从生物化学到不同工业重要聚合物的各个领域,也是用于其他精细化学品的合成中间体。寻找和开发高效、温和、环保且廉价的有机二硫化物制备方法,对有机官能团转化具有重要意义。硫醇的氧化偶联是制备二硫醚的最佳和最简单的途径。与二芳基二硫醚相比,有关二烷基二硫醚的研究报道相对较少,因此,本文重点关注二烷基二硫醚合成方法,特别是近十年来的反应,从催化或非催化硫醇与分子氧氧化、化学计量合成、电化学氧化及以硫磺作为氧化剂的氧化偶联5个方面综述了各自的合成反应机理、优点和局限性,以期促进该领域的进一步发展。