Chlorophyll sensitized BiVO4 as photoanode for solar water splitting and CO2 conversion

Converting solar energy into valuable hydrogen and hydrocarbon fuels through photoelectrocatalytic water splitting and CO_2 reduction is highly promising in addressing the growing demand for renewable and clean energy resources. However, the solar-to-fuel conversion efficiency is still very low due to limited light absorption and rapid bulk recombination of charge carriers. In this work, we present chlorophyll(Chl) and its derivative sodium copper chlorophyllin(ChlCuNa), as dye sensitizers, modified BiVO_4 to improve the photoelectrochemical(PEC) performance. The photocurrent of BiVO_4 is surprisingly decreased after a direct sensitization of Chl while the sensitization of ChlCuNa obviously enhances photocurrent of BiV04 electrodes by improved surface hydrophilicity and extended light absorption.ChlCuNa-sensitized BiV04 achieves an improved H_2 evolution rate of 5.43 μmol h~(-1) cm~(-2) in water splitting and an enhanced HCOOH production rate of 2.15 μmol h~(-1) cm~(-2) in CO_2 PEC reduction, which are1.9 times and 2.4 times higher than pristine BiVO_4, respectively. It is suggested that the derivative ChlCuNa is a more effective sensitizer for solar-to-fuel energy conversion and CO_2 utilization than Chl.     

Synthesis and Herbicidal Activities of Novel Uracil Derivatives Containing Pyrimidinyl Moiety

In order to find novel protoporphyrinogen oxidase inhibitors with high efficacy, broad-spectrum activity, and safety to crops, nine title compounds（4a-4i） were designed and synthesized by introducing pyrimidine moiety into the uracil skeleton with commercially herbicide butafenacil as the lead compound. Their structures were con- firmed by 1H NMR, IR, mass spectroscopy and elemental analysis. The bioassay results indicate that most of com- pounds 4 tested exhibit good to excellent herbicidal activities against B. campestris, A. retroflexus, E. crusgalli and D. sanguinalis in pre-emergence treatment at a dose of 1.5 kg/ha（1 ha=10^4 m^2）, for example, compound 4i showed 100% inhibition against the four plants tested in pre-emergence treatment at a dose of 1.5 kg/ha. So, this type of skeleton can be used as a valuable lead compound for the further development of a pre-emergent herbicide.     

含芳氧乙酰基和间-三氟甲基苯基的双酰胺化合物的合成及其除草活性

通过组合不同除草作用机制的活性基团,采用芳氧乙酸为酸组分的Ugi四组分反应合成了一系列芳氧乙酰基和间三氟甲基苯基片段的双酰胺化合物3a~3v,采用IR、¹H NMR、EI-MS和元素分析等技术手段对其结构进行了表征。 温室盆栽测试结果表明,部分目标化合物对油菜、反枝苋、稗草和马唐表现出中等至良好的除草活性,如化合物3r在温室盆栽时,在1.5 kg/ha剂量下,在苗前处理时对反枝苋和马唐显示出100%的抑制活性;在苗后处理时对马唐显示出100%的抑制活性。 初步探讨了目标化合物的构效关系。     

A comparative study of bismuth-based photocatalysts with titanium dioxide for perfluorooctanoic acid degradation

Bismuth-based material has been broadly studied due to their potential applications in various areas, especially used as promising photocatalysts for the removal of persistent organic pollutants (POPs) and several approaches have been adopted to tailor their features. Herein, the bismuth-based photocatalysts (BiOCl, BiPO₄, BiOPO₄/BiOCl) were synthesized by hydrothermal method and advanced characterization techniques (XRD, SEM, EDS elemental mapping, Raman and UV–vis DRS) were employed to analyze their morphology, crystal structure, and purity of the prepared photocatalysts. These synthesized photocatalysts offered a praiseworthy activity as compared to commercial TiO₂ (P25) for the degradation of model pollutant perfluorooctanoic acid (PFOA) under 254 nm UV light. It was interesting to observe that all synthesized photocatalysts show significant degradation of PFOA and their photocatalytic activity follows the order: bismuth-based catalysts > TiO₂ (P25) > without catalyst. Bismuth-based catalysts degraded the PFOA by almost 99.99% within 45 min while this degradation efficiency was 66.05% with TiO₂ under the same reaction condition. Our work shows that the bismuth-based photocatalysts are promising in PFOA treatment.     

DNA调节纳米金模拟酶活性的癌胚抗原比色检测

本文构建了一个DNA调节纳米金颗粒（AuNPs）过氧化物酶模拟酶活性的比色检测方法,用于癌胚抗原的检测。将癌胚抗原的核酸适配体及其互补链通过碱基互补配对构成双链DNA,修饰在磁性微球负载的纳米金颗粒上,制备出具有可调节过氧化物酶模拟酶活性的生物探针。癌胚抗原被生物探针上的核酸适配体捕获后,在AuNPs表面形成空间位阻效应屏蔽底物,从而抑制了AuNPs的酶活性。且为了指示纳米金颗粒的酶活性,用生物探针催化氧化色源底物3,3′,5,5′-四甲基联苯胺（TMB）显色。TMB颜色随着癌胚抗原浓度的增加而变浅,根据体系650nm处的吸光度与癌胚抗原浓度之间的反比关系实现了对癌胚抗原的测定,线性范围为2~18 ng/mL,检测限达0.375 ng/mL。此外,癌胚抗原浓度超过4.8 ng/mL时,颜色出现了可直接用肉眼判断的显著变化。为使检测更加便携,本文同时设计了倒置磁分离检测管,在管中就能完成纳米探针捕获癌胚抗原、磁分离、洗涤。最优条件下,比色检测体系回收率为99%~100%,与临床检验差异显著性分析表明,t检验低于3.182,无明显差异。     

对冗余态的状态分配技术

本文提出了一种对冗余态的状态分配技术.对存在冗余态的时序系统,该技术可以减少或消除冗余态,从而减轻了对自校正的要求.此外,在设计一个具有冗余态的系统时.A-H规则能较好地满足,从而可获得较简单的电路.     

A comparative study of bismuth-based photocatalysts with titanium dioxide for perfluorooctanoic acid degradation

The fabricated bismuth-based photocatalysts presented an outstanding performance as compared to commercial TiO₂ (P25) for PFOA degradation under 254 nm UV light irradiation.     

绿色合成氧化铈构建导尿管抗菌水凝胶涂层

因导尿管引起的微生物感染严重危害患者健康,并容易导致细菌耐药性。基于纳米材料的抗菌涂层是应对导尿管感染的最有效策略之一。本文利用绿色小球藻自身及其分泌物的还原性环境,制备合成高表面活性的纳米氧化铈Bio-CeO₂,能够高效产生活性氧自由基,实现对大肠杆菌、铜绿假单胞菌等致病菌的抑制和杀伤。在这种绿色合成的模拟酶纳米材料基础上,将其与壳聚糖、京尼平等生物基材料协同作用,在导尿管表面构建稳定的抑菌水凝胶涂层。结果显示,包覆有Bio-CeO₂水凝胶抗菌涂层的硅胶导尿管比裸导管的抑菌效果显著增强,尤其是在低浓度的过氧化氢溶液环境下,对铜绿假单胞菌的抑菌效率可提升至54%,这为未来新型广谱抗菌导尿管的设计和感染性疾病的预防控制提供了潜在新材料和技术手段。     

聚[2-(丙烯酰氧基)乙基]三甲基氯化铵-乙二醇二甲基丙烯酸酯整体柱固相萃取结合高效液相色谱法测定尿液中3种苯二氮（卄卓）类药物

以[2-（丙烯酰氧基）乙基]三甲基氯化铵（DAC）为单体,乙二醇二甲基丙烯酸酯（EDMA）为交联剂在注射器中制备聚合物整体柱,用其固相萃取尿液中溴西泮（BRZ）、劳拉西泮（LRZ）和地西泮（DZP）3种苯二氮（卄卓）类药物（BZDs）,并采用高效液相色谱法（HPLC）分析。实验考察了整体柱聚合时间及固相萃取条件（淋洗溶液、洗脱溶剂种类和体积）对BZDs萃取效率的影响。结果表明,仅聚合4 h得到的整体柱对BZDs吸附效率为100%。取尿液样品4 mL上样,用4 mL H₂O冲洗,1 mL乙酸乙酯洗脱,采用高效液相色谱分析。在最优条件下,3种BZDs在4.0~1000 ng/mL范围内线性关系良好（r=0.999）,检出限（S/N=3）和定量限（S/N=10）分别为1.0~1.2 ng/mL和3.3~4.0 ng/mL;在10、25和50 ng/mL加标水平下回收率为81.4%~102%,日内（n=3）和日间（n=3）相对标准偏差分别为1.2%~4.5%和2.5%~8.3%。该整体柱可对尿液中3种BZDs有效净化,且富集达12~15倍。方法构筑的聚合物整体柱制备简单,萃取高效,可成功用于尿液中3种BZDs的分析。