助剂对泡沫金属微反应器内二甲醚水蒸气重整制氢的影响

采用共沉淀耦合机械混合法制备了CuO-ZnO-Al₂O₃/HZSM-5双功能催化剂用于二甲醚水蒸气重整制氢的研究,结合BET、H₂-TPR、XRD、SEM等表征手段,在泡沫金属微反应器内考察助剂Cr、Zr、Ce、Co对双功能催化剂催化性能的影响。研究结果表明,加入Cr助剂后, 可以有效降低催化剂的平均孔径和还原温度,并抑制催化剂制备过程中氢氧化锌晶相的形成,催化剂的低温催化性能明显提高,二甲醚的转化率和氢收率在较低温度下即可分别达到99%和95%,表现出了良好的低温反应活性。考察了反应温度、空速和水醚比等条件对二甲醚水蒸气重整催化剂催化活性的影响,在250℃、空速3 884 mL/(g·h)、水醚比为5的条件下,CuO-ZnO-Al₂O₃-Cr₂O₃/ HZSM-5催化二甲醚水蒸气重整反应进行50 h,二甲醚的转化率维持在97%以上,催化剂的活性没有明显下降。     

Development and characterization of a microfluidic glucose sensing system based on an enzymatic microreactor and chemiluminescence detection

Chemiluminescence detection was developed as an alternative to amperometric detection for glucose analysis in a portable, microfluidics-based continuous glucose monitoring system. Amperometric detection allows easy determination of hydrogen peroxide, a product of the glucose oxidase-catalyzed reaction of glucose with oxygen, by oxidation at a microelectrode. However, (micro)electrodes in direct contact with physiological sample are subject to electrode fouling, which leads to signal drift, decreased reproducibility and shortened detector lifetimes. Moreover, there are a few species present in the body (e.g. ascorbic acid, uric acid) which can undergo oxidation at the same applied potential as hydrogen peroxide. These species can thus interfere with the glucose measurement, reducing detection specificity. The rationale for exploring chemiluminescence as opposed to amperometric detection is thus to attempt to improve the lifetime and reproducibility of glucose analysis for monitoring purposes, while reducing interference caused by other chemicals in the body. The study reported here represents a first step in this direction, namely the realization of a microfluidic device with integrated silicon photodiode for chemiluminescence detection of glucose. This microflow device uses a chaotic mixing approach to perform enzymatic conversion of glucose, followed by reaction of the hydrogen peroxide produced with luminol to produce light at 425 nm. The chemiluminescence reaction is catalyzed by horseradish peroxidase in the presence of iodophenol. The performance of the fabricated chip was characterized to establish optimal reaction conditions with respect to sample and reagent flow rates, pH, and concentrations. A linear calibration curve was obtained for current response as a function of glucose concentration in the clinically relevant range between 2 and 10 mM, with a sensitivity of 39 pA/mM (R = 0.9963, one device, n = 3) and a limit of detection of 230 μM (S/N = 3).     

Immobilized enzyme studies in a microscale bioreactor

Novel microreactors with immobilized enzymes were fabricated using both silicon and polymer-based microfabrication techniques. The effectiveness of these reactors was examined along with their behavior over time. Urease enzyme was successfully incorporated into microchannels of a polymeric matrix of polydimethylsiloxane and through layer-bylayer self-assembly techniques onto silicon. The fabricated microchannels had cross-sectional dimensions ranging from tens to hundreds of micrometers in width and height. The experimental results for continuous-flow microreactors are reported for the conversion of urea to ammonia by urease enzyme. Urea conversions of > 90% were observed.     

SiO_2/PE/Bi_2S_3核壳结构纳米颗粒的合成与性能(英文)

以多层电解质作为微型反应器,制备了SiO2/Polyelectrolyte(PE)/Bi2S3核壳纳米粒子。XRD结果表明Bi2S3颗粒属于正交晶系。由透射电镜和场发射扫描电镜照片可知,在直径为640nm左右的SiO2表面覆盖了厚度35nm的Bi2S3壳层。红外光谱分析结果表明硅烷网络在结构上发生了变化(SiO2表面的硅烷醇键沉积在Bi2S3的表面)。SiO2核和SiO2/PE/Bi2S3的紫外-可见吸收光谱显示在900nm存在典型吸收边。     

SiO2/PE/ Bi2S3核壳结构纳米颗粒的合成与性能(英)

以多层电解质作为微型反应器，制备了SiO₂/ Polyelectrolyte(PE) / Bi₂S₃核壳纳米粒子。XRD结果表明Bi₂S₃颗粒属于正交晶系。由透射电镜和场发射扫描电镜照片可知，在直径为640 nm左右的SiO₂表面覆盖了厚度35 nm的Bi₂S₃壳层。红外光谱分析结果表明硅烷网络在结构上发生了变化(SiO₂表面的硅烷醇键沉积在Bi₂S₃的表面)。SiO₂核和SiO₂ / PE / Bi₂S₃的紫外-可见吸收光谱显示在900 nm存在典型吸收边。     

Development of novel microscale system as immobilized enzyme bioreactor

This study involves a novel method for immobilized enzyme catalysis. The focus of the work was to design and construct a microscale bioreactor using microfabrication techniques traditionally employed within the semiconductor industry. Enzymes have been immobilized on the microreactor walls by incorporating them directly into the wall material. Fabricated microchannels have cross-sectional dimensions on the order of hundreds of micrometers, constructed using polydimethylsiloxane cast on silicon/SU-8 molds. The resulting ratio of high surface area to volume creates an efficient, continuous-flow reaction system. Transverse features also containing enzymes were molded directly into the channels.     

尺寸可控的固定化漆酶-介体凝胶小球微反应器的制备和性能评价

首次利用漆酶-乙酰丙酮(AA)-过硫酸钾组成的复合引发体系在室温水相中引发丙烯酰胺的聚合, 采用滴球法将上述反应液滴入硫酸铜溶液, 利用铜离子与壳聚糖的络合交联反应制备得到尺寸可控的核壳结构小球. 小球内部发生自由基聚合反应, 将漆酶-AA同步固定于新生成的具有三维网络结构的水凝胶中. 微反应器小球的形貌和内部孔道结构通过扫描电镜和氮气吸附实验进行了表征. 该固定化漆酶-介体小球微反应器相比于游离漆酶表现出更高的pH稳定性和耐热性. 得益于固定化AA的介导作用, 漆酶的可重复使用性能得到显著提升, 降解孔雀石绿的有效循环批次较游离漆酶-介体体系延长了3倍, 为降低漆酶在实际废水处理中的成本、削减游离介体带来的二次污染提供了一条有效途径.     

水溶性树枝形聚合物微反应器笼效应研究

本工作以羧基为末端基团的芳醚树枝形聚合物G_n(n=1-4)和核心为十二烷基链的聚酰胺-胺树枝形聚合物PG_m(m=1-3)作为光化学微反应器,研究了1-苯基-3-对甲苯基丙酮在水溶液中的α-光解反应,并计算了笼效应.研究结果表明,芳醚树枝形聚合物G_n的笼效应随代数增加而增大,高代数树枝形聚合物表现出对底物分子更强的限制性作用,增加树枝形聚合物的浓度可以提高笼效应;聚酰胺-胺树枝形聚合物PG_m对CH₃-DBK的限制作用远低于芳醚树枝形聚合物G_n.     

Combination of MALDI-TOF mass spectrometry with immobilized enzyme microreactor for peptide mapping

Matrix-assisted laser desorption/ionization mass spectrometry (MALDI-MS) has been combined with immobilized enzyme microreactor for the rapid, sensitive, and accurate tryptic mapping of protein and polypeptides. The technique utilizes the trypsin microreactor by immobilized enzyme on the glycidyl methacrylate (GMA)-modified cellulose membrane. The membrane micro-reactor was used for the tryptic mapping of cytochrome C and the results were compared with those obtained by using free trypsin. A significant increase in the overall sensitivity of the process was observed using the membrane microreactor, as well as the elimination of background signals due to the autolysis of the trypsin. Further, membrane microreactor digestions were found to be rapid and convenient.