无人机视角下的林木爆燃火特性研究

森林火灾“爆燃”现象的特征是突然发生的高强度、高蔓延速度的燃烧。目前为止，关于“爆燃火”的原因还没有达成共识。以无人机视角下对林木爆燃火特性研究，以四川木里特大森林火灾为研究对象，通过分析凉山州某森林扑火部队3月31日木里森林火灾当天KWT（科卫泰）无人机航拍火场画面，结合无人机实时影像及实地调研数据，分析了峡谷地形林火蔓延时空特征，探讨了峡谷中风向风速变化时空分布规律，研究了地形变化条件下，不同海拔高度风速特征，建立了无人机倾角测量风速模型（其中为风速m·s-1，为无人机倾角°）。结果表明，高山峻岭特殊地形环境下每天4:00—12:00时间段为静风期，为峡谷林火扑救最佳时期；午后15:00—17:00和晚上20:00—22:00为山谷地形风速活跃期；仿真软件数据显示山顶、谷底与山腰不同海拔位置的风速风向不统一，谷底会产生乱流现象，且风速与海拔不存在正相关关系，小气候在复杂地形中占主导影响地位；在谷口至山谷深处的中间位置会出现气流速度的波峰状态，并易形成乱流，为爆燃火发生提供了客观必要条件。该研究可为复杂地形环境下，森林草原火灾扑救安全提供数据和技术支撑。     

Enhanced Thermal Decomposition Properties and Catalytic Mechanism of Ammonium Perchlorate over CuO/MoS2 Composite

In this report, CuO/MoS₂ composites were successfully prepared by the hydrothermal method where nano‐sized CuO was uniformly distributed on the surface of hierarchical MoS₂ substrates (CuO/MoS₂ composites). Their physicochemical properties and catalytic performance in ammonium perchlorate (AP) decomposition were investigated and characterized by XRD, SEM, TEM, BET, XPS, TG/DSC and combustion measurement. The results showed that it could decrease AP decomposition temperature at high decomposition stage from 416.5 °C to 323.5 °C and increase the heat release from 378 J/g (pure AP) to 1340 J/g (AP with catalysts), which was better than pure CuO nanoparticles (345.5 °C and 1046 J/g). Meanwhile, it showed excellent performance in combustion reaction either in N₂ or air atmosphere. The results obtained by photocurrent spectra, photoluminescence spectra and time‐resolved fluorescence emission spectra indicated that loading CuO mediated the generation rate and combination rate of electrons and holes, thus tuning the catalytic performance on AP decomposition. This study proved that employing the supports that can synergistically interact with CuO is an efficient strategy to enhance the catalytic performance of CuO.     

手持技术测定钙尔奇D片中的钙含量

利用二氧化碳传感器测定钙尔奇D片中的钙含量，解决二氧化碳含量不好直接测定的问题，帮助学生提升定量认识，同时体验多种数据记录与处理方式，感受信息技术的魅力。     

Negative-pressure wound therapy induces endothelial progenitor cell mobilization in diabetic patients with foot infection or skin defects

Non healing chronic wounds are difficult to treat in patients with diabetes and can result in severe medical problems for these patients and for society. Negative-pressure wound therapy (NPWT) has been adopted to treat intractable chronic wounds and has been reported to be effective. However, the mechanisms underlying the effects of this treatment have not been elucidated. To assess the vasculogenic effect of NPWT, we evaluated the systemic mobilization of endothelial progenitor cells (EPCs) during NPWT. Twenty-two of 29 consecutive patients who presented at the clinic of Seoul National Universty Hospital between December 2009 and November 2010 who underwent NPWT for diabetic foot infections or skin ulcers were included in this study. Peripheral blood samples were taken before NPWT (pre-NPWT) and 7–14 days after the initiation of NPWT (during-NPWT). Fluorescence-activated cell sorting (FACS) analysis showed that the number of cells in EPC-enriched fractions increased after NPWT, and the numbers of EPC colony forming units (CFUs) significantly increased during NPWT. We believe that NPWT is useful for treating patients with diabetic foot infections and skin ulcers, especially when these conditions are accompanied by peripheral arterial insufficiency. The systemic mobilization of EPCs during NPWT may be a mechanism for healing intractable wounds in diabetic patients with foot infections or skin defects via the formation of increased granulation tissue with numerous small blood vessels.     

靶向抑制拓扑异构酶和端粒酶的钌配合物研究进展

金属配合物抗肿瘤研究,尤其是铂类药物,已取得了相对令人瞩目的成功,但同时也面临着包括耐药性和毒副作用等诸多问题。近年来钌配合物作为新的抗癌药物引起了人们的注意。在非铂系药物中,金钌配合物;拓扑异构酶;G-四链体;端粒酶属钌配合物是最有前途的抗癌药物之一,国际上普遍认为钌和钌的配合物属于低毒性,容易吸收并在体内很快排泄。本文将着重介绍钌配合物与DNA结合后进一步引发的细胞内核酶活性抑制研究,从新的角度来诠释钌配合物的抗肿瘤研究最新进展。     

聚乙烯亚胺改性氧化石墨对水中Cr(Ⅵ)的吸附

通过对石墨氧化、酯化,将聚乙烯亚胺耦合接枝到氧化石墨表面,制备聚乙烯亚胺改性氧化石墨(PEI-GO).通过FTIR、XRD、TEM、RS和XPS等对合成材料进行表征,并研究了其对水中的Cr(Ⅵ)吸附和脱附性能.表征结果表明,聚乙烯亚胺成功嫁接到氧化石墨上,其氨基含量为4.36 mmol·g^-1.PEI-GO对水中Cr(Ⅵ)具有很好的吸附性能,吸附等温线符合Freundlich方程,吸附动力学可用拟二级动力学方程来描述.PEI-GO对水中Cr(Ⅵ)的吸附随pH的升高而降低.阴离子的存在降低吸附剂对Cr(Ⅵ)的吸附,不同阴离子的影响大小顺序为PO₄^3- >SO₄^2- >NO^3- >Cl^-.XPS结果表明,PEI-GO对Cr(Ⅵ)的去除是吸附-化学还原耦合作用的结果.经4次脱附再生循环,PEI-GO对Cr(VI)仍具有较高吸附量,表明该吸附剂再生性好,可循环使用.     

离子液体电沉积CuInxGa1-xSe2薄膜

采用循环伏安法(CV)对离子液体Reline中三元CuCl₂+InCl₃+SeCl₄体系和四元CuCl₂+InCl₃+GaCl₃+SeCl₄体系的电化学行为进行了研究。研究表明,In³⁺并入三元CIS(Cu-In-Se)薄膜体系和Ga³⁺并入四元CIGS(Cu-In-Ga-Se)薄膜体系均有两种途径：一是发生共沉积,二是直接还原。利用电感耦合等离子体发射光谱(ICP)和扫描电镜(SEM)对沉积电势、镀液温度和主盐浓度对CIGS薄膜组成、镀层表面形貌的影响进行了测试,结果表明通过工艺参数的选择可以控制Ga/(Ga+In)和CIGS薄膜组成并得到化学计量比为Cu_1.00In_0.78Ga_0.27Se_2.13的薄膜。     

还原氧化石墨烯/碳纳米管/Co_3O_4三元复合材料的制备与电化学性能

将低温水热反应和低温热处理相结合,制备了含还原氧化石墨烯(RGO)、碳纳米管(CNTs)和Co3O4的三元纳米复合材料RGO-CNTs-Co3O4;利用X射线衍射仪、扫描电子显微镜、透射电子显微镜分析了合成产物的相组成和微观结构,分析了其形成过程;并利用电化学测试装置测定了其作为锂离子电池负极材料的电化学性能.结果表明,在合成反应过程中,氧化石墨烯被还原剂肼还原为石墨烯,同时在石墨烯和CNTs表面生成氢氧化钴;再经低温热处理得到RGO-CNTs-Co3O4三元复合材料.Co3O4纳米颗粒均匀分散在由RGO片层和CNTs组成的三维网络结构中;这种三维网络结构既有利于电子和离子的传输,又能够有效抑制Co3O4在脱嵌锂过程中因体积变化引起的结构破坏.总体而言,合成的新型三元复合材料具有高的比容量以及良好的循环性能与倍率性能.     

不稳定的二甲基氨基甲基二茂铁的ESI-HRMS分析条件研究

研究并优化了化合物N,N-二甲基氨基甲基二茂铁的电喷雾离子化-高分辨质谱(ESI-HRMS)分析方法。重复测定样品,目标分子离子计数的相对标准偏差(RSD,n=10)为2.4%,表明仪器重复性良好。通过对目标分子的一级质谱图与二级质谱图分析,一级质谱图中母离子的丰度低于最强子离子丰度的10%,表明目标分子在源内发生了裂解。研究了一级质谱中目标分子离子及其最强碎片离子的离子计数与干燥气温度、毛细管出口电压的变化规律,并拟合得到相应的数学方程;确定了目标分子质谱分析的最佳条件。     

气相色谱-串联质谱法测定饮用水、酱油和食醋中四种杀鼠剂

采用气相色谱串联质谱法测定饮用水、酱油和食醋中4种鼠药氟乙酰胺、鼠立死、毒鼠强和杀鼠酮的含量。饮用水样品用固相萃取(苯乙烯二乙烯苯和甲基丙稀酸甲脂聚合物固相萃取柱)富集净化;食醋和酱油样品用乙腈为提取溶剂,加入少量石墨化炭黑去除色素的快速萃取法提取净化,采用INNOWAX弹性的石英毛细管柱分析。结果表明本方法测定选定样品基质的回收率和相对标准偏差分别在57.2%～102.2%,1.9%～9.5%之间;饮用水中除去杀鼠酮的最低检测浓度为2.0μg/L外,其他均小于0.5μg/L;食醋和酱油中杀鼠酮的最低检测浓度为0.10 mg/kg,其他均小于0.025 mg/kg。本方法适用于突发中毒事件中几种食品样品中4种鼠药的同时快速定性和准确定量。