双态发光三苯胺基有机硼配合物的设计、合成与应用

以三(4-溴苯)胺、4-氨基苯硼酸频哪醇酯、4-二乙氨基水杨醛和三氟化硼乙醚溶液为原料,经过Suzuki偶联反应、缩合反应和配位反应,设计、合成了一种新型三枝结构的三苯胺有机硼配合物(TPAB),使用 ¹H和 ¹³C NMR对 TPAB的结构进行了表征,通过紫外可见吸收光谱和荧光发射光谱详细研究了TPAB溶液和固体态的光物理性能以及不同的外部条件对其发光性能的影响。发现 TPAB溶液和固体态都具有较强的荧光发射,在四氢呋喃溶液中的吸收峰位于 417 nm,发射峰位于 548 nm,荧光量子产率为 40.49%,荧光寿命为 1.72 ns;TPAB 固体的荧光发射峰位于 582 nm,荧光量子产率为 11.43%,荧光寿命为 0.72ns,表明TPAB具有优良的双光发光性能。此外,TPAB具有良好的发光稳定性,不受pH、金属离子、氨基酸和压力的影响。基于化合物优异的发光性能,将其应用于荧光细胞成像,在肝癌细胞(HepG2)中表现出良好的单光子和双光子荧光成像效果。     

Highly oxidized graphene with enhanced fluorescence and its direct fluorescence visualization

We prepared hyper-oxidized graphene (HOG) as a form of graphene derivative by additional oxidation of graphene oxide (GO) sheets. HOG, which formed more functional groups and isolated conjugated clusters on the sheets, accordingly showed high solubility in water and alcohols, high transmittance and film transparence, longer fluorescence decay constant time, and enhanced fluorescence in states of solution and solid. By contrast, GO has much weaker fluorescence in solution and its fluorescence is totally quenched in solid. The influences of concentration, metallic ions, and pH on HOG fluorescence in aqueous solution were also investigated in detail. Due to HOG’s strong fluorescence, direct visualization was realized on substrates and in solution. In addition, direct 3D fluorescence visualizations of HOG phase in polymer composites were achieved. These results show the great potential of HOG in a broad range of applications, from biological labeling, probes, and drug carriers to high-performance composites and nanomanipulation.     

新型卤代甲氧基二苯甲酮类化合物的合成及其对H2O2致人脐静脉内皮损伤的保护研究

以甲氧基和卤素取代的苯甲酸为起始原料,经过羧酸酰基化、傅克酰基化、芳香环卤代等反应合成了12个卤代甲氧基二苯甲酮类化合物,其结构经ESI-MS、1H NMR、13C NMR进行了表征和确认。通过考察其对H2O2诱导的人脐静脉内皮细胞(HUVECs)损伤的保护活性,讨论了此类化合物的构效关系。体外活性实验表明,浓度为12.5μmol/L时,化合物7a和9a对HUVECs有一定的保护活性,保护率超过50%。     

无粘结剂ZSM-11催化剂上异丁烯直接胺化生成叔丁胺

叔丁胺是一种重要的化工原料和中间体,广泛应用于制备橡胶促进剂、医药、农药和着色剂等下游产品.异丁烯在分子筛催化剂上直接胺化生产叔丁胺是一个经济环保过程,其中ZSM-5和BEA分子筛的催化性能优于其它系列分子筛.ZSM-11与ZSM-5分子筛具有相似的孔道结构,我们以前的实验结果表明,与ZSM-5相比,ZSM-11表现出更优越的芳构化反应性能,在干气中乙烯低温芳构化方面也有明显优势.在此基础上,我们进行无粘结剂ZSM-11分子筛催化剂合成,并应用于异丁烯直接胺化生产叔丁胺反应.传统水热技术合成的分子筛通常为粉末,机械强度不能达到实际应用的要求,在工业化过程中分子筛粉末一般需要加入粘结剂成型使其具备一定的机械强度和形状,但是粘结剂会降低分子筛催化剂的活性和选择性,有可能会引发一些副反应,因此无粘结剂分子筛催化剂引起人们广泛关注.无粘结剂分子筛是指分子筛颗粒中不含惰性粘结剂或只含有少量粘结剂,主要依靠分子筛晶粒间的相互作用支撑存在,具有一定形状、尺寸和机械强度的催化材料.无粘结剂分子筛催化剂中分子筛含量较高,可利用的有效表面积较大,在离子交换及工业催化等方面具有明显优势.本文采用水热合成的ZSM-11分子筛原粉与二氧化硅机械混合(ZSM-11/SiO2=70/30)挤条后,通过气固相合成法制备了无粘结剂ZSM-11分子筛催化剂(Cat-C).作为对比,还分别制备了ZSM-11和SiO2机械混合(ZSM-11/SiO2=70/30)样品HZSM-11+SiO2及ZSM-11和氧化铝机械混合(ZSM-11/Al2O3=70/30)样品HZSM-11+Al2O3.利用X射线衍射、透射电镜、NH3程序升温脱附和吸附吡啶红外光谱等对分子筛催化剂的物理化学性能进行了表征.同时,以这些分子筛样品为催化剂,在固定床反应装置上进行了异丁烯胺化反应评价,反应条件为270℃,5.0 MPa,氨烯比为4和异丁烯空速0.5 h?1.结果表明,与HZSM-11+SiO2和HZSM-11+Al2O3相比,Cat-C上叔丁胺生成速率最高.关联催化剂物化性能和反应性能发现,催化剂孔道结构与叔丁胺生成并不存在明显的关联性,而较多的Br?nsted酸和较少的Lewis酸才是Cat-C具有良好反应性能的主要原因.具有一定机械强度的无粘结剂ZSM-11分子筛催化剂制备简单,在异丁烯直接胺化过程中叔丁胺生成速率高,具有很好的工业化应用前景.     

Non-metallic gold nanoclusters for oxygen activation and aerobic oxidation

In this review, oxygen activation and their aerobic oxidation over the Au nanoclusters are presented. The size-specificity, ligand engineering, and doping effects and the proposed reactions’ mechanism and the structure-activity relationships at the atomic level are also discussed.     

3D-structured carbon-coated MnO/graphene nanocomposites with exceptional electrochemical performance for Li-ion battery anodes

MnO has a high theoretical capacity, moderate discharge plateau, and low polarization when it is used as the anode material in lithium battery. However, the issues that limit its application are its poor conductivity and large volume changes, which can easily result in the collapse of electrode structure during long-term cycling. In the present work, a carbon-coated MnO/graphene 3D-network anode material is synthesized by an electrostatic adsorption of dispersed precipitates precipitation method. The MnO nanoparticles coated by carbon are uniformly distributed on the surface of graphene nanosheets and form a 3D sandwich-like nanostructure. A carbon layer is coated on the surface of MnO nanoparticles, which slows down the volume expansion in the process of lithium intercalation. The graphene nanosheets are cross-linked through carbons in this 3D nanostructure, which provides mechanical support and effective electron conduction pathways during the charge-discharge. The electrochemical tests indicate that the prepared 3D carbon-coated MnO/graphene electrode exhibits an excellent rate capacity of 1247.3 and 713.2 mAh g^?1 at 100 and 1000 mA g^?1, respectively. The capacity is 792.2 mAh g^?1 after long cycle at a current density of 1000 mA g^?1. The specific capacity is higher than that of MnO-based composite lithium anode materials currently reported. The superior rate and cycling performances are attributed to the unique 3D-network structure, which provides an effectively conductive network, buffers volume expansion, and prevents falling and aggregation of MnO in the charge and discharge process of the electrode materials. The 3D-structured carbon-coated MnO/graphene anode material will have an excellent application prospect.

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Graphical abstract Cyclic performance at 1 A g^?1 and SEM images (inset) of the 3D-structured carbon-coated MnO/graphene nanocomposite.

     

Enhanced Photodynamic Therapy by Reduced Levels of Intracellular Glutathione Obtained By Employing a Nano‐MOF with CuII as the Active Center

In photodynamic therapy (PDT), the level of reactive oxygen species (ROS) produced in the cell directly determines the therapeutic effect. Improvement in ROS concentration can be realized by reducing the glutathione (GSH) level or increasing the amount of photosensitizer. However, excessive amounts photosensitizer may cause side effects. Therefore, the development of photosensitizers that reduce GSH levels through synergistically improving ROS concentration in order to strengthen the efficacy of PDT for tumor is important. We report a nano‐metal–organic framework (Cu^II‐metalated nano‐MOF {CuL‐[AlOH]₂}_n (MOF‐2, H₆L=mesotetrakis(4‐carboxylphenyl)porphyrin)) based on Cu^II as the active center for PDT. This MOF‐2 is readily taken up by breast cancer cells, and high levels of ROS are generated under light irradiation. Meanwhile, intracellular GSH is considerably decreased owing to absorption on MOF‐2; this synergistically increases ROS concentration and accelerates apoptosis, thereby enhancing the effect of PDT. Notably, based on the direct adsorption of GSH, MOF‐2 showed a comparable effect with the commercial antitumor drug camptothecin in a mouse breast cancer model. This work provides strong evidence for MOF‐2 as a promising new PDT candidate and anticancer drug.     

稀土对管线钢中碳化物溶解与析出行为的影响

以X80管线钢为研究对象,研究了稀土对含铌钢奥氏体化与析出行为的影响。利用热力学固溶度积公式,计算了铌碳化物的溶解温度;借助显微组织观察与硬度测试,对比分析了稀土对高温下奥氏体晶粒粗化及不同温度淬火回火后硬度的影响;通过热模拟实验并利用透射电镜,研究了稀土对实验钢在热变形过程中铌碳氮化物析出行为的作用机制。结果表明:稀土元素的加入降低了碳氮化物的固溶温度,促进了Nb(C,N)等第二相粒子的固溶,稀土能够促进热变形过程中Nb(C,N)的析出,从而提高铌元素的析出强化效果。     

PVP-NiB非晶态催化剂的制备和催化苯酚及其衍生物加氢反应性能

以聚乙烯吡咯烷酮(PVP)为稳定剂,采用化学还原法制备了PVP-NiB非晶态催化剂,通过红外光谱、X射线衍射、透射电子显微镜和电感耦合等离子体光谱对催化剂进行了表征.结果表明,PVP不仅能够提高NiB纳米颗粒的分散度,而且对其起到稳定作用;将该催化剂首次应用于苯酚及其衍生物的催化加氢反应,在水相体系中,30°C及氢气压力0.2 MPa时,苯酚的转化率和环己醇的选择性都能够达到99.9%;酚类衍生物加氢反应结果发现,该催化剂有利于环己醇类物质的生成,初步考察了PVP-NiB非晶态催化剂的构效关系.     

豆芽中甲硝唑、多菌灵、赤霉素、6-苄基腺嘌呤、2,4-二氯苯氧乙酸的定量检测

本文建立了快速筛查豆芽中常见添加物甲硝唑、多菌灵、赤霉素、6-苄基腺嘌呤和2,4-二氯苯氧乙酸的液相色谱定量方法。回收率为79%～96.6%,定量限在20～200μg/kg。对市场随机抽查64份豆芽样品检测发现,高达32份样品中含有1种以上添加物,主要是多菌灵、6-苄基腺嘌呤和2,4-二氯苯氧乙酸。