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不同形貌纳米SnO2的可控合成及催化发光传感器 总被引:1,自引:0,他引:1
本文以碳纳米管(CNT)为模板、采用液相沉积法、通过改变煅烧温度可控合成了SnO2-CNT复合纳米材料、SnO2纳米棒、SnO2纳米粒子等3种形貌的SnO2纳米材料,研究了3种形貌的SnO2纳米材料对乙酸乙酯催化发光的影响;通过考察3种不同形貌SnO2纳米材料的纳米尺度和结构,讨论了影响纳米材料催化发光特性的因素;研究了3种不同形貌SnO2纳米材料对乙酸乙酯催化发光图谱和强度的变化,建立了3种新型、高效的不同形貌纳米催化发光传感器。 相似文献
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本文对合成TiO2一维纳米材料及其有序纳米阵列的阳极氧化法、模板法以及水热法进行了全面而系统的评述,着重介绍了它们的最新研究进展。阳极氧化法能制备牢固负载于基体上的TiO2纳米管阵列,这有助于构筑TiO2纳米结构及其在纳米器件上的应用;与多种制备技术如溶胶-凝胶工艺、电化学沉积以及原子层沉积等相结合,模板法可以合成出多种形貌的TiO2纳米材料如纳米管、纳米线和纳米棒,并且可以通过改变所用模板的微观尺寸来调控TiO2一维纳米材料及其有序阵列的微结构参数;水热合成法可以制备出直径小且比表面积大的TiO2纳米管粉末。从目前来看,该法还不能制备出牢固负载于基体上的有序纳米阵列。文章最后指出了TiO2一维纳米材料及其有序纳米阵列合成中存在的问题及今后发展方向。 相似文献
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在水体重金属污染中,汞污染问题日益严峻,已成为全球性环境问题之一。近年来,纳米FeSx、Fe3O4、Fe等铁基材料凭借优越的吸附性能以及比表面积优势,受到研究者的广泛关注。对铁基纳米材料进行稳定化、官能团改性之后可以增强纳米粒子的分散度,为汞离子提供更多的吸附点位,进一步加强对水中汞离子的去除效果。本文重点阐述了纳米FeSx的稳定化、Fe3O4等铁基材料的巯基化(-SH)、氨基化(-NH2)等功能化改性方法及对Hg的去除;总结了功能化铁基纳米材料对水中Hg的去除效果和影响因素;探究了功能化铁基纳米材料去除水中汞的机理;最后展望了铁基功能化纳米材料处理水体汞离子的发展方向。 相似文献
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实验发现,盐酸四环素能够很好吸附到Nafion膜上,动力学研究表明其吸附是与浓度相关并由扩散控制的一级动力学过程,扩散系数为8.5×10-9 cm2 s-1,遵循BET吸附等温线,表明其多层吸附特性.研究表明,当吸附了盐酸四环素的Nafion膜浸入合适浓度的氯金酸溶液时,盐酸四环素能够介导金微纳米晶体在Nafion膜上的生长,且通过简单改变氯金酸溶液的浓度,可以调控金微纳米晶体的形态.这一实验结果为金属微纳米材料Nafion聚合物复合膜的制备提供了新思路,这种金微纳米材料Nafion聚合物复合膜在化学生物传感设计和材料科学领域具有潜在的应用价值. 相似文献
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本文对合成TiO2一维纳米材料及其有序纳米阵列的阳极氧化法、模板法以及水热法进行了全面而系统的评述,着重介绍了它们的最新研究进展。阳极氧化法能制备牢固负载于基体上的TiO2纳米管阵列,这有助于构筑TiO2纳米结构及其在纳米器件上的应用;与多种制备技术如溶胶-凝胶工艺、电化学沉积以及原子层沉积等相结合,模板法可以合成出多种形貌的TiO2纳米材料如纳米管、纳米线和纳米棒,并可以通过改变所用模板的微观尺寸来调控TiO2一维纳米材料及其有序阵列的微结构参数;水热合成法可以制备出直径小且比表面积大的TiO2纳米管粉末。但从目前看来,该法还不能制备出牢固负载于基体上的有序纳米阵列。文章最后指出了TiO2一维纳米材料及其有序纳米阵列合成中存在的问题及今后发展方向。 相似文献
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纳米材料在光度分析中的应用进展 总被引:1,自引:0,他引:1
本文在对纳米材料的性质简要介绍的基础上,综述了近年来纳米金、纳米银以及纳米氧化铁等纳米材料在光度分析中的应用进展,并对其在生命分析化学中的典型应用进行了较为详细的介绍。展望了今后纳米材料在该领域的主要发展方向。共收录文献104篇。 相似文献
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金属氧化物、Ⅲ-Ⅴ、Ⅱ-Ⅵ等半导体纳米材料由于其独特的功能性质已广泛应用于光学、电子、太阳能转化、催化等领域,是当今先进材料领域的研究前沿与热点。随着科技的发展,人们对材料的高效、多功能要求已成为必然,对半导体材料发展要求亦如此。多组分复合、多层次结构协同是实现半导体纳米材料多功能化与高效化的有效途径。构筑多级结构组合纳米半导体,不但可以调控其能带结构而提高半导体材料的光电与催化性能,而且由于多级低维纳米结构聚集时形成的空间位阻效应可以有效克服纳米晶“易团聚”难题。本文提出多级结构组合纳米晶的概念、分类,结合近年来该领域的研究实践,较系统地综述了多级复合半导体纳米结构制备的最新研究进展。首先简要介绍了多级复合半导体纳米材料的概念与典型结构; 其次对典型多级复合半导体纳米材料的制备方法进行了重点评述,分别综述了液相法、气相法以及最新发展起来的静电纺丝等方法在多级结构半导体复合纳米材料制备中的应用实践。再其次,对以具有半导体特性的石墨烯及其功能化衍生物为基体的新型多级复合半导体纳米材料的制备做了综述。最后对半导体/半导体多级结构复合纳米材料的发展方向做了展望。 相似文献
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亲水膜的表面改性及在膜蒸馏中的应用 总被引:4,自引:0,他引:4
膜的微孔性和疏水性是水溶液膜蒸馏的两个基本条件,迄今人们均采用疏水性高分子材料制成疏水微孔膜用于膜蒸馏研究。本文采用辐照接枝聚合和等离子体表面聚合的方法,将亲水的醋酸纤维素微孔膜和硝酸纤维素微孔膜表面疏水化改性,成功地用于膜蒸馏研究,大大扩展了疏水微孔膜的材料来源。实验结果表明,亲水膜表面改性得到的疏水膜,其膜蒸馏性能不低于疏水材料制成的膜,尤其是等离子体聚合法可以实现多种特殊单体在多孔的材料表面聚合,成为制备高性能疏水微孔膜的有效手段,为膜蒸馏的深入发展和实用化创造了有利条件。 相似文献
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Clean water supply is an essential element for the entire sustainable human society, and the economic and technology development. Membrane filtration for water and wastewater treatments is the premier choice due to its high energy efficiency and effectiveness, where the separation is performed by passing water molecules through purposely tuned pores of membranes selectively without phase change and additional chemicals. Ceramics and polymers are two main candidate materials for membranes, where the majority has been made of polymeric materials, due to the low cost, easy processing, and tunability in pore configurations. In contrast, ceramic membranes have much better performance, extra-long service life, mechanical robustness, and high thermal and chemical stabilities, and they have also been applied in gas, petrochemical, food-beverage, and pharmaceutical industries, where most of polymeric membranes cannot perform properly. However, one of the main drawbacks of ceramic membranes is the high manufacturing cost, which is about three to five times higher than that of common polymeric types. To fill the large gap between the competing ceramic and polymeric membranes, one apparent solution is to develop a ceramic-polymer composite type. Indeed, the properly engineered ceramic-polymer composite membranes are able to integrate the advantages of both ceramic and polymeric materials together, providing improvement in membrane performance for efficient separation, raised life span and additional functionalities. In this overview, we first thoroughly examine three types of ceramic-polymer composite membranes, (i) ceramics in polymer membranes (nanocomposite membranes), (ii) thin film nanocomposite (TFN) membranes, and (iii) ceramic-supported polymer membranes. In the past decade, great progress has been made in improving the compatibility between ceramics and polymers, while the synergy between them has been among the main pursuits, especially in the development of the high performing nanocomposite membranes for water and wastewater treatment at lowered manufacturing cost. By looking into strategies to improve the compatibility among ceramic and polymeric components, we will conclude with briefing on the perspectives and challenges for the future development of the composite membranes. 相似文献
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YANG Xue WEI Yingcong CHU Xuefeng ZHAO Qi YAN Wenling DONG Chenjun LIU Baijun SUN Zhaoyan HU Wei ZHANG Niaona 《高等学校化学研究》2019,35(4):735-741
Nanocellulose(NCC) was prepared through the acid hydrolysis of microcellulose(MCC) and was reacted with maleic anliydride to obtain carboxyl-functionized nanocellulose(MA-NCCs). The presence of .OH and .SO3H on the surface of rod-like MA-NCC was confirmed by Fourier transfonn infrared spectrometry(FTIR). Sulfonated poly(aryl ether ether ketone ketone)(Ph-SPEEKK) was synthesized with bis(4-fluorophenyl-methanone) and 2-phenylhydroquinone as monomer. MA-NCC/Ph-SPEEKK nanocomposite membranes with different MA-NCCs content were prepared, and their properties were characterized. Compared with Ph-SPEEKK, MA-NCC/Ph-SPEEKK nanocomposite membrane showed better mechanical and thermal properties and higher proton conductivity. The proton conductivity of the composite membrane with 4%(mass fraction) MA-NCCs under 80℃ was 0.095 S/cm. And its tensile strength reached 30.3 MPa, which was 21.2% higher than that of Ph-SPEEKK pure polymer membrane. 相似文献
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HOU Lanlan LIU Jingchong LI Dianming GAO Yuan WANG Yaqiong HU Rongjun REN Wen XIE Shuixiang CUI Zhimin WANG Nü 《高等学校化学研究》2021,37(3):337-354
Janus membrane with opposite wettability on its two sides has witnessed an explosion of interest in the field of liquid spontaneous and directional transport for their promising prospect. The advances in fabrication technology and natural bionics have brought remarkable progress for the development of Janus mate-rials. Among the exciting progress, the micro/nanofabrication technique of electrospinning shows advantages in constructing thin porous fibrous membrane materials with controllable surface wettabi-lity and hierarchical structures. Here, a brief review of bioinspired Janus membrane for unidirectional liquid penetration fabricated by electrospinning is presented, and the underlying scientific mechanism is discussed with an emphasis on the materials design involving asymmetric surface wettability and micro-topology structure. An overview of recent emerging applications is also reviewed, with special attentions to liquid separation, water collection, distillation, and smart textile, etc. As researchers keep to develop more efficient strategies on designing new Janus membrane with higher performances, it has become increasingly important to understand the mechanism of liquid moving dynamics at the asymmetric interface in order to better recognize the scientific limitations currently hindering the field development. At last, the challenges currently faced and possible strategies on developing new Janus membranes for optimization and engineering in the future are proposed. 相似文献
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Dr. Arshad Hussain Hajera Gul Waseem Raza Dr. Salman Qadir Dr. Muhammad Rehan Dr. Nadeem Raza Aasif Helal Dr. M. Nasiruzzaman Shaikh Dr. Md. Abdul Aziz 《Chemical record (New York, N.Y.)》2024,24(4):e202300352
Recently, carbon neutrality has been promoted as a potentially practical solution to global CO2 emissions and increasing energy-consumption challenges. Many attempts have been made to remove CO2 from the environment to address climate change and rising sea levels owing to anthropogenic CO2 emissions. Herein, membrane technology is proposed as a suitable solution for carbon neutrality. This review aims to comprehensively evaluate the currently available scientific research on membranes for carbon capture, focusing on innovative microporous material membranes used for CO2 separation and considering their material, chemical, and physical characteristics and permeability factors. Membranes from such materials comprise metal-organic frameworks, zeolites, silica, porous organic frameworks, and microporous polymers. The critical obstacles related to membrane design, growth, and CO2 capture and usage processes are summarized to establish novel membranes and strategies and accelerate their scaleup. 相似文献
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磷脂膜色谱及其在药物跨膜转运评价中的应用 总被引:1,自引:0,他引:1
磷脂膜色谱是固态基质上的有序磷脂分子单层体系采用色谱学方法仿真药物与细胞膜相互作用过程,可用来评价药物的细胞膜渗透性和活性。硅胶表面上的磷脂单分子层模拟了单层细胞膜,因此药物的磷脂膜色谱保留行为可用于预测药物与细胞膜的相互作用。目前考察药物跨膜转运的模型主要有正辛醇/水系统、脂质体/水系统、反相色谱(ODS)以及磷脂膜色谱。与前述3种系统比较,磷脂膜色谱除了具有高效、简便等特点外,同时能模拟药物与生物膜之间疏水作用力以外的其他作用力,因此对磷脂膜色谱的研究也越来越深入。由于药物细胞膜渗透性对其有效性和安全性起着关键作用,因此磷脂膜色谱在新药研发早期阶段的介入可以有效地降低后期候选药物的淘汰率,提高新药的研发效率。该文就磷脂膜色谱的研究及在药物跨膜转运评价中的应用进行了综述。 相似文献