海藻酸钠基凝胶吸附材料对Cr(VI)吸附性能研究

海藻酸钠(SA)是一种天然生物质材料,其来源广、价格低,聚乙烯亚胺是一种含有氨基(-NH_(2))的水溶性高分子聚合物,螯合重金属离子能力强,众多研究者将二者结合其制备成吸附剂去除水溶液中的金属离子。本研究以海藻酸钠为基体,加入碳酸钙和聚乙烯亚胺,以戊二醛为交联剂,经冷冻干燥后形成吸附较好的海藻酸钠-聚乙烯亚胺吸附材料。采用吸附实验研究了材料对水中Cr(VI)的吸附性能,并研究初始浓度、溶液pH、吸附时间、吸附剂用量等对吸附效果的影响。实验结果表明:在Cr(VI)溶液初始浓度为15 mg/L、吸附剂用量0.4 g、吸附时间200 min,吸附温度为313 K时,Cr(VI)去除率达90%以上。

基于绿色生物质阿拉伯树脂的氮掺杂碳点用于检测工业废水中的Cr(VI)

以绿色生物质阿拉伯树脂(AG)为碳源,三羟甲基氨基甲烷(Tris)为氮源,二者按质量比1∶4混合,通过水热法制备了一种新型氮掺杂碳点(NACDs),并基于NACDs构建了一种荧光传感器,用于工业废水中Cr(VI)的检测。取200μL样品溶液、NACDs溶液100μL、0.2 mmol·L^(-1)磷酸氢二钠-磷酸二氢钠缓冲液(pH 8.0) 200μL加至2 mLEP管中,用水定容至1 mL。室温反应10 min后,在激发波长365 nm处扫描,并在430 nm处测量体系荧光强度。结果表明,在365 nm的激发波长下,NACDs于430 nm表现出强荧光信号,并可被Cr(VI)选择性猝灭。Cr(VI)的质量浓度在0.25~3.00 mg·L^(-1)内与NACDs的荧光猝灭值呈线性关系,检出限(3s/k)为0.13 mg·L^(-1)。按照标准加入法对模拟工业废水样品进行回收试验,回收率为103%~105%,测定值的相对标准偏差(n=6)均小于3.0%,加标样品所得测定结果与国家标准方法GB/T 15555.4—1995的无显著性差异。

电纺丝制备磁性单晶BiFeO_(3)纳米纤维并用于Cr(VI)的可见光催化还原

本工作提出一种将溶胶凝胶与静电纺丝结合的分步快速烧结技术,成功制备了单晶BiFeO_(3)纳米纤维。通过热重差热分析(TG-DTG)、XRD、SEM、TEM、EDS、紫外可见漫反射光谱和氮气吸附脱附曲线等测试对所制备材料的结构和形貌进行表征。同时,考察了BiFeO_(3)纳米纤维在可见光下对水中Cr(VI)的光催化还原性能。结果显示,相比于传统方式制备的纳米颗粒,该材料因更大的比表面积而具有更高的光催化活性。空穴消耗剂酒石酸的加入能够促进该材料对Cr(VI)的光催化还原反应,使还原效率提高87%。总之,本文制备的BiFeO_(3)材料能在可见光下响应,并在常温下具有弱磁性,能通过磁场力回收,在环境净化领域具有广阔的应用前景。

VI族元素修饰对二维AlN电子性质影响的第一性原理研究

采用密度泛函理论的第一性原理计算方法,研究了VI族元素(O、S、Se、Te)修饰对二维AlN电子性质的影响。计算结果表明,O修饰后,二维AlN体系的能带发生劈裂,从而转变为磁性材料;S、Se和Te修饰后,二维AlN电子态密度曲线自旋向上和自旋向下完全对称,形成了非磁性结构。从态密度图可以看出,费米能级附近的态密度主要由修饰原子的p态电子和N原子的p态电子贡献,导带底部逐渐向低能区移动,导致二维AlN的吸收波长阈值从紫外线区域向可见光移动。因此,修饰的二维AlN光催化效率提高,并有应用于可见光响应的光电子和自旋电子器件的可能。

微纳米黄铁矿对水中Cr(VI)的还原固定研究

通过机械活化的方法对天然黄铁矿进行处理,利用X射线衍射仪(XRD)、高分辨率透射电子显微镜(TEM)对其进行表征,采用批实验的方法探究不同投加量、不同温度和不同pH的条件下,黄铁矿微粒对水中Cr(VI)的还原固定效果。结果表明,经过机械活化之后天然黄铁矿粒径在100 nm左右,达到微纳米级别;黄铁矿微粒对水中Cr(VI)的去除率随着投加量的增加不断增大,1.0 g的黄铁矿微粒可以完全去除浓度为10 mg·L^(-1)的Cr(VI)溶液;随着温度的升高,黄铁矿微粒对水中Cr(VI)的去除率升高,温度为45℃、反应时间为2 h,去除率可以达到97.8%;溶液初始pH值在2~7内,黄铁矿微粒对Cr(VI)的去除率随着pH值的升高逐渐降低,pH为2时去除率最高,为95%;通过尝试动力学拟合,黄铁矿微粒去除水中Cr(VI)的过程符合准二级动力学。

粪产碱杆菌改性生物炭对水中U(VI)的去除性能与机理

制备了粪产碱杆菌改性猪粪生物炭(PMBC-A1、PMBC-A2、PMBC-A3)用于去除水中的铀。扫描电镜和能谱仪表征表明粪产碱杆菌被分泌的生物膜包埋固定在生物炭表面,并形成了高磷界面。批次试验表明PMBC-A2对铀的吸附性能更优异,且不易发生磷污染。当U(VI)初始质量浓度为5 mg/L时,PMBC-A2最佳的吸附条件是投加量为0.1 g/L,温度为30℃,反应时间为24 h,此时对铀的去除率最高达92.65%。PMBC-A2除铀过程符合拟二级动力学模型和Langmuir等温线模型,拟合最大吸附容量为338.52 mg/g。在干扰离子存在时PMBC-A2对铀的吸附具有良好的选择性。吸附—解吸试验表明PMBC-A2具有循环利用的潜力。傅里叶红外光谱、光电子能谱和X射线衍射等表征证明PMBC-A2对水中铀的去除机理主要是磷酸基团和羧基的表面络合吸附、生物磷酸盐矿化和生物还原。

Efficient and rapid capture of uranium(Ⅵ) in wastewater via multiamine modified β-cyclodextrin porous polymer

It is quite important to ensure the safety and sustainable development of nuclear energy for the treatment of radioactive wastewater. To treat radioactive wastewater efficiently and rapidly, two multi-amine β-cyclodextrin polymers(diethylenetriamine β-cyclodextrin polymer(DETA-TFCDP) and triethylenetetramine β-cyclodextrin polymer(TETA-TFCDP)) were prepared and applied to capture uranium. Results exhibited that DETA-TFCDP and TETA-TFCDP displayed the advantages of high adsorption amounts(612.2and 628.2 mg·g-1, respectively) and rapid adsorption rates, which can reach(88 ± 1)% of their equilibrium adsorption amounts in 10 min. Moreover, the adsorbent processes of DETA-TFCDP and TETATFCDP on uranium(Ⅵ) followed the Langmuir model and pseudo-second-order model, stating they were mainly chemisorption and self-endothermic. Besides, TETA-TFCDP also showed excellent selectivity in the presence of seven competing cations and could be effectively reused five times via Na2CO3as the desorption reagent. Meanwhile, X-ray photoelectron spectroscopy and Fourier transform infrared spectroscopy illustrated that the enriched multi-amine groups and oxygen-containing functional groups on the surface of TETA-TFCDP were the main active sites for capturing uranium(Ⅵ). Hence, multi-amine β-cyclodextrin polymers are a highly efficient, rapid, and promising adsorbent for capturing uranium(Ⅵ)from radioactive wastewater.

胺基功能化介孔硅材料对铀(VI)的吸附及机理研究

本研究探讨了胺基功能化介孔硅材料(AFPS)对水体中铀(VI)的吸附性能及其吸附机理。通过合成8种具有不同孔径和胺基功能团(APTES和AEPTES)的AFPS,评估了这些材料在不同pH条件下对铀(VI)的吸附效果。实验结果显示,在pH值约为5.5的条件下,AFPS对铀(VI)的吸附效率最高。孔径分析表明,AEPTES功能团的最佳孔径为4.1 nm,而APTES功能团的最佳孔径为2.7 nm。吸附机理研究表明,胺基通过与水合铀酰分子团表面的羟基(OH-)结合,实现了对铀(VI)的有效吸附。本研究不仅为理解AFPS吸附铀(VI)的机制提供了科学依据,也为开发新型高效吸附材料提供了理论支持和研究方向。

Effective Elimination of Hazardous Chromium (VI) Using Periodic Elements and Contemporary Adsorption Methods by Using Magnesium Ferrite Nanoparticle: A Review

A well-known hazardous metal and top contaminant in wastewater is hexavalent chromium. The two forms of most commonly found chromium are chromate ( CrO 4 2− ) and dichromate ( Cr 2 O 7 2− ). Leather tanning, cooling tower blow-down, plating, electroplating, rinse water sources, anodizing baths etc. are the main sources of Cr (VI) contamination. The Cr (VI) is not only non-biodegradable in the environment but also carcinogenic to living population. It is still difficult to treat Cr contaminated waste water effectively, safely, eco-friendly, and economically. As a result, many techniques have been used to treat Cr (VI)-polluted wastewater, including adsorption, chemical precipitation, coagulation, ion-exchange, and filtration. Among these practices, the most practical method is adsorption for the removal of Cr (VI) from aqueous solutions, which has gained widespread acceptance due to the ease of use and affordability of the equipment and adsorbent. It has been revealed that Fe-based adsorbents’ oxides and hydroxides have high adsorptive potential to lower Cr (VI) content below the advised threshold. Fe-based adsorbents were also discovered to be relatively cheap and toxic-free in Cr (VI) treatment. Fe-based adsorbents are commonly utilized in industry. It has been discovered that nanoparticles of Fe-, Ti-, and Cu-based adsorbents have a better capacity to remove Cr (VI). Cr (VI) was effectively removed from contaminated water using mixed element-based adsorbents (Fe-Mn, Fe-Ti, Fe-Cu, Fe-Zr, Fe-Cu-Y, Fe-Mg, etc.). Initial findings suggest that Cr (VI) removal from wastewater may be accomplished by using magnesium ferrite nanomaterials as an efficient adsorbent.

基于VI视觉识别系统的饲料品牌策划

VI视觉识别系统是具有统一性、系统性的视觉符号系统,在饲料品牌策划中能起到树立品牌形象,扩大品牌知名度和影响力,增强品牌信任感等显著效果,所以能为饲料品牌发展提供有力支撑。而在应用VI视觉识别系统的过程中,要注意把握好饲料品牌策划的原则,力求通过标志设计、标准色设计、包装设计以及信息推广等途径不断优化饲料品牌策划方案,确保饲料品牌能在激烈的市场竞争中脱颖而出,以良好的品牌为饲料企业带来溢价效应和增值效应。

枸杞不同部位UV-Vis和HPLC指纹图谱研究

目的采用多维指纹图谱结合化学计量学方法,比较枸杞果实和根皮中黄酮、香豆素类和苯丙酸类等成分的整体差异,并综合多糖和总黄酮的含量比较,为枸杞不同药用部位的价值评估和质量标准的建立提供理论依据。方法建立HPLC指纹图谱进行相似度评价和共有峰确定。化学计量学方法对药材不同部位进行分类研究,建立分类模型,筛选出重要差异性标志物并进行定量分析;紫外-可见光谱(UV-Vis),反映药材化学组成的整体特征;采用2020年版《中华人民共和国药典》苯酚-硫酸法测定枸杞多糖的含量,亚硝酸钠-硝酸铝比色法测定总黄酮含量。结果HPLC指纹图谱共标定9个共有峰,指认了绿原酸、东莨菪内酯、槲皮素、芦丁4个色谱峰。相似度评价表明果实和根皮整体组成差异较大,地骨皮不同产地之间质量缺乏一致性;正交偏最小二乘法-判别分析找出芦丁是对整体差异性贡献比较大的化学成分;UV-Vis呈现明显的指纹特性;枸杞子中枸杞多糖和总黄酮的含量分别为2.74%~3.79%和1.52%~2.24%,均高于地骨皮中1.92%~2.67%和0.46%~0.58%,且含量分布具有产地差异性。结论综合多指标揭示枸杞果实和根皮中化学成分差异,为枸杞药材的质量评价和资源价值的充分利用提供重要的数据参考。

VI创意设计提升奢侈品皮具品牌影响力探析

随着社会经济的发展,VI的创意设计对于品牌影响力的作用越来越受到品牌方和消费者的重视。如何通过VI创意设计来提升奢侈品皮具品牌的影响力也是一个值得探讨的过程。本文从VI的概念、VI创意设计在奢侈品皮具中的表现形式和如何提升奢侈品皮具品牌的影响力等方面进行分析,以达到抛砖引玉的作用。

Calculating the Crystallite Size of Microsorum scolopendria AgCl Nanoparticles and Their Biological Activities

In this work, AgCl nanoparticles were synthesized from Microsorum scolopendria (MS) aqueous extract and AgNO3 solution. Preliminary confirmation was a color change from a light brown to a dark-colored solution and a UV-Vis spectra surface plasmon resonance peak at 427 nm. Measured vibrational frequencies at 1713 cm1 and 1030 cm1 for C-O stretching of carboxylic acid or aliphatic ketone, and 1547 cm1 for possibly N-O stretching of nitro compounds by Infrared (FTIR) analysis explain the possible biomaterial electronegative species or functional groups responsible for the reduction of Ag ( 1) to Ag (0) for the formation of MS-AgCl nanoparticles. XRD analysis studies revealed that these particles contained face-centered cubic crystallites of metallic AgCl of 100 % with an average calculated crystallite size range of 30.34 nm (SD = 5.10 nm) by Scherrers equation and a calculated crystallite size of 66.04 nm with a lattice strain of 0.00175 nm by Williamson Hall equation. The measured albumin denaturing activity of MS-AgCl nanoparticles gave an IC50 value of 26.70 g/mL and 1.35 g/mL for the positive control diclofenac. Additionally, the measured ability of phosphomolybdate complex formation, the antioxidant IC value of MS-AgCl nanoparticles was 35.29 g/mL, and positive control ascorbic acid was 13.91 g/mL. In all, using MS fern frond aqueous extracts, this preliminary work confirms MS-AgCl nanoparticles as potential therapeutic agents for oxidative stress, inflammatory problems, and related diseases.

Mistreatment during Childbirth: Impact on Maternal Outcomes and Importance of Provider Perspectives

Background: Dying in childbirth is one of the most common causes of death for women. While maternal mortality rates, defined as deaths per 100,000 live births, have been steadily dropping in most countries worldwide, maternal mortality rates have doubled in the United States in the last twenty years. This commentary examines the various contributing factors to this trend. Methods: A literature review was performed using the keywords: maternal mortality, United States, disrespectful maternity care, obstetric violence, provider perspectives, and disparities. Maternal mortality statistics were obtained from the World Health Organization website. Results: Medical factors associated with maternal mortality include increased maternal age and cardiovascular conditions. Social factors include barriers to healthcare access, delays in receiving medical care, reduction in reproductive health services in some states, and non-obstetrical deaths such as accidents, domestic violence, and suicide. Racial inequities and disparities of care are reflected in higher maternal mortality rates for minorities and people of color. Disrespectful maternity care or obstetric violence has been reported worldwide as a factor in delay of lifesaving obstetrical care and reluctance by a pregnant person to access the healthcare system. About one in five US women has reported experiencing mistreatment, varying from verbal abuse to lack of privacy, from coerced procedures to neglect during childbirth. Conclusion: This commentary highlights the importance of inclusion of providers in research on respectful maternity care. Provider burnout, moral distress, limited time, and burden of clinical responsibilities are known challenges to respectful and comprehensive medical care. The association of disrespectful care with poor maternal outcomes needs to be studied. Exploring root causes of disrespectful childbirth care can empower nurses, midwives, and physicians to improve their environment and find solutions to reduce a potential cause of maternal mortality.

Mark VIe控制系统在燃驱压缩机组控制系统升级改造中的应用

针对当前集成了不同厂家几套子系统的一些燃驱压缩机组控制系统结构复杂、维护成本高等问题,应用基于Mark VIe控制平台来升级改造该系统。以某改造项目为例,应用双冗余Mark VIe控制系统架构,Mark VIe SIL3模件作为紧急停机和火气保护系统的硬件,同时采用Mark VIe ControlST统一软件平台。结果表明:新控制系统采用了一体化硬件、软件设计,提高了机组控制系统的安全可靠性,有利于日常运行维护,而且新系统具有在线监测功能,有助于系统故障排查。

铁改性污泥生物炭对水中Cr(VI)的吸附性能研究

通过剩余污泥热解、活化、铁改性,制备了铁改性污泥生物炭(Fe-S@HKBC),采用扫描电镜(SEM)、X-射线衍射(XRD)、傅里叶红外光谱(FT-IR)、比表面及孔隙度分析仪(BET)等对其进行了表征分析;考察了生物炭用量、Cr(VI)初始浓度、溶液pH、共存离子(Na^(+)、Ca^(2+))等对Fe-S@HKBC吸附去除水中Cr(VI)的影响,并探讨了吸附机理.结果表明,Fe-S@HKBC的比表面积为283.96 m^(2)/g,其表面富含Fe-O、C-O、-C=O、-OH等官能团.在生物炭用量为4 g/L,Cr(VI)初始浓度为10~300 mg/L时,Fe-S@HKBC对Cr(VI)的吸附量可达47.69 mg/g,去除率高达99.82%,均明显高于BC.Langmuir吸附等温线和伪二级动力学模型均能够较好描述吸附过程.Fe-S@HKBC吸附Cr(VI)的主要作用机制包括氢键、络合、还原和静电引力作用.研究结果为Cr(VI)的有效去除和污泥的处置提供了理论依据.

Fe/活性炭材料对电镀废水中Cr(VI)的去除研究

为了深度去除电镀废水中的Cr(Ⅵ),利用FeSO_(4)·7H_(2)O和Fe_(2)(SO_(4))_(3)制备Fe_(3)O_(4)颗粒对活性炭进行磁改性处理,制备了磁性复合材料Fe_(3)O_(4)@AS。用多种表征方法研究活性炭磁性改性前后结构和官能团的变化;探讨了pH、吸附剂投加量等对Fe_(3)O_(4)@AS吸附Cr(Ⅵ)效果的影响及吸附机理。

基于Vis/NIR光谱传感的鲜食葡萄糖度检测系统

糖度是影响鲜食葡萄品质与风味的关键因素,对其可溶性固形物SSC的检测具有切实需求。近年来,随着芯片级光谱传感器的生产技术趋于成熟,具有高精确性与稳定性的片上光谱传感器为可见/近红外检测技术开辟了新的途径。设计、搭建、测试了一套体积小、易操作、低成本的用于鲜食葡萄糖度无损检测的光学系统。系统以两块搭载芯片级光谱分析技术的新一代可见/近红外光谱传感器AS7263(美国AMS半导体公司)为核心元件。每个AS7263传感器具有6个集成了纳米光干涉滤波器的数字光谱通道和一个可通过单芯片准确控制电流(1~100 mA)的LED光源。传感器光谱通道的中心波长范围610~860 nm;两个LED光源的中心波长分别为730和850 nm,半峰全宽(FWHM)为50 nm。首先,运用此原型在避光环境下采集276颗巨峰葡萄浆果的光谱信息;用手持式PAL-1糖度仪检测样本SSC(°Brix)并计算基于t分布的样本糖度真值SSC_(t):SSC_(t0.9)与SSC_(t 0.95)。其次,针对样本原始光谱数据,采用PCA提取主成分,根据得分因子分布,剔除了16个位于置信区间外的异常样本;进一步采用一阶导数First Derivative(FD)、归一化Normalization(0,1)与标准化Standardization(0,1)3种方式做数据预处理,求取样本在12个通道下的吸光度A或Kubelka-Munk函数值F(R)。针对可见/近红外光谱自变量之间具有多重相关性、光谱信息与糖度信息之间非线性相关的特点,建立PLS-BP神经网络糖度预测模型(自变量为吸光度A或F(R)值,因变量为SSC_(t))。结果显示,当t分布的置信概率为0.95、光谱预处理方式为Standardization(0,1)、光谱信息指标为吸光度A时所建立的预测模型精度最高:决定系数r_(p)^(2)为0.93、均方根误差RMSE_(P)为0.181、预测集偏差Bias为-0.01、残留预测偏差RPD为3.78,可认为模型具有较高精度与较好适应性对葡萄SSC做出预测。最后,结合实验结果,作了葡萄浆果SSC光谱检测原理的分子尺度分析:在各分子振动类型中,O—H键伸缩振动的3倍频、4倍频,O—H键剪式振动与伸缩振动3倍频、4倍频的合频,C=O键伸缩振动的8倍频、9倍频为可见/近红外光谱检测的有效振动频率。该研究为未来工业与消费领域在线质量检测设备的高精度化、便携化、低成本化提拱了技术参考。

榛子壳活性炭对Cr(VI)重金属废水的吸附研究

以榛子壳为原料,磷酸为活化剂,通过700℃高温炭化150 min制备活性炭,评价榛子壳活性炭对Cr(VI)重金属模拟废水的吸附性能,分别考察活性炭添加量、接触时间、溶液初始pH值、Cr(VI)初始浓度对Cr(VI)吸附能力的影响,通过傅里叶变换红外光谱对活性炭表面的官能团进行表征,利用扫描电镜对吸附前后活性炭的表面形貌进行观察。结果表明,Cr(VI)的最佳吸附条件为活性炭用量0.4 g(100 mL体系),接触时间240 min,溶液初始pH值=3.0,Cr(VI)初始质量浓度50 mg·L^(-1),吸附率高达98.67%。红外光谱分析显示活性炭表面存在大量以—OH、—C=O、—C=C基团为主的官能团,对活性炭的吸附性能具有至关重要的作用。吸附前后活性炭微粒的扫描电镜显示,吸附后的活性炭颗粒由于表面附着有大量Cr(VI),较吸附前的活性炭颗粒明显变长,说明榛子壳活性炭的吸附能力较强。本研究表明,利用磷酸为活化剂,经高温活化制备的活性炭具有良好的Cr(VI)吸附性能,为进一步开发农林果壳废弃物的高附加值环保吸附剂材料提供了实验依据。

基于UV-Vis漫反射、Raman与PL光谱联用技术在黄色珍珠无损检测中的应用

应用紫外-可见(UV-Vis)漫反射、拉曼(Raman)与光致发光(PL)光谱就当前市售的大小各异、金色饱和度深浅不一的珍珠其致色属性予以对比分析。结果表明:基于珍珠UV-Vis漫反射光谱特征的差异将金黄色珍珠初分为两种类型:Ⅰ型珍珠其谱图在(360±5) nm处存在吸收带、在(420±10) nm处存在较弱的吸收峰或肩,该类珍珠为当前珍珠销售市场较为常见的自身致色珍珠;除Ⅰ型珍珠外,将其他金黄色系珍珠归属为Ⅱ型,其对应的UV-Vis反射光谱主吸收峰可位于340~430 nm区间,部分Ⅱ型样品在280~600 nm无明显吸收或仅存在较弱的吸收肩。进一步就Ⅱ型珍珠予以Raman光谱检测,在激发强度较低时经处理的Ⅱ型黄色珍珠在150~1 000 cm^(-1)区间可产生较强的荧光峰,且荧光峰的强度明显高于文石约1 086 cm^(-1)处的特征峰。同时,上述经处理的Ⅱ型珍珠对应的PL光谱同样表明在500~600 nm区间的荧光强度显著增大。此外,部分经处理的珍珠其Raman或PL光谱中可见与珍珠组成成分无关的特征峰位。上述珍珠的Raman与PL光谱中出现的异常荧光与外来特征峰可作为珍珠经处理的佐证依据。课题工作为当前金黄色珍珠颜色的形成属性及仿珍珠的鉴定提供理论与技术支撑,同时对于Raman光谱在其他类宝玉石、特别是有机宝石的检测鉴定中具有重要的借鉴意义。