土遗址保护材料综述

基于对土遗址保护材料选择的基本原则和现今国内外土遗址保护材料的研究将其分为无机材料、有机材料和有机/无机杂化材料三大类并对一些常用的土遗址保护材料及其加固保护机理进行了介绍。     

Enhancing the flame-retardant performance of wood-based materials using carbon-based materials

We sought to improve the flame-retardant performance of wood-based materials through the development of a coating material using carbon-based materials. The coating materials were applied to the surfaces of wood-based materials used for interior materials and furniture. We measured fire characteristics of the coated wood-based materials using a cone calorimeter. The coating materials were prepared by the mixing of carbon materials, such as natural graphite, expandable graphite, and exfoliated graphite nanoplatelets, in water-based coating materials. TG analysis revealed that water-based coating materials/carbon material-blended composites had good thermal durability in the working temperature ranges. The flame-retardant performance was confirmed through cone calorimeter experiments, and the result of the experiment satisfied the standard for flame-retardant performance in ISO 5600-1.     

Preparation of calibration materials for microanalysis of Ti minerals by direct fusion of synthetic and natural materials: experience with LA-ICP-MS analysis of some important minor and trace elements in ilmenite and rutile

Calibration materials for microanalysis of Ti minerals have been prepared by direct fusion of synthetic and natural materials by resistance heating in high-purity graphite electrodes. Synthetic materials were FeTiO3 and TiO2 reagents doped with minor and trace elements; CRMs for ilmenite, rutile, and a Ti-rich magnetite were used as natural materials. Problems occurred during fusion of Fe2O3-rich materials, because at atmospheric pressure Fe2O3 decomposes into Fe3O4 and O2 at 1462 degrees C. An alternative fusion technique under pressure was tested, but the resulting materials were characterized by extensive segregation and development of separate phases. Fe2O3-rich materials were therefore fused below this temperature, resulting in a form of sintering, without conversion of the materials into amorphous glasses. The fused materials were studied by optical microscopy and EPMA, and tested as calibration materials by inductively coupled plasma mass spectrometry, equipped with laser ablation for sample introduction (LA-ICP-MS). It was demonstrated that calibration curves based on materials of rutile composition, within normal analytical uncertainty, generally coincide with calibration curves based on materials of ilmenite composition. It is, therefore, concluded that LA-ICP-MS analysis of Ti minerals can with advantage be based exclusively on calibration materials prepared for rutile, thereby avoiding the special fusion problems related to oxide mixtures of ilmenite composition. It is documented that sintered materials were in good overall agreement with homogeneous glass materials, an observation that indicates that in other situations also sintered mineral concentrates might be a useful alternative for instrument calibration, e.g. as alternative to pressed powders.     

阻尼材料研究进展

对各种阻尼材料的研究进展进行了概述,内容涉及材料阻尼性能的评价方法,各种材料的阻尼机理及其影响因素,还简单介绍了先进的阻尼材料———智能阻尼材料及先进的阻尼技术———等离子真空沉积技术的研究概况。     

新型沸石分子筛主体-纳米客体复合材料研究进展

This paper mainly elaborated the recent developments of the studies on the new type zeolite molecular sieve host-nanoguest composite materials composing of molecular sieve channels or cages encapsulated nanoscale materials from the point of nanochemistry and material science, and the trends of development in this field. As the research of the properties of this kind of materials are going on, it is possible that this kind of host-guest nanocomposite materials will be usd in some fields. such as science and high technology fields. as the new type of optical, electrical and magnetic materials in the level of molecular assembly. This paper contains the following contents: hosts and guests; the sizes and shapes of guests; the optical, electrical and magnetic properties of the materials; the syntheses and characterizations of the materials; the applications of the materials and forecast.     

无机多孔材料的合成及其在环境催化领域的应用

无机多孔材料因其具有特殊的物化性能在化工、能源、环保等相关领域被广泛应用。本文总结了无机多孔材料的当前研究进展,详细介绍了微孔、介孔、大孔材料和大孔-介孔、大孔-微孔、介孔-微孔以及大孔-介孔-微孔等复合孔材料的制备方法,并介绍了无机多孔材料在室内、外等环保催化领域的应用,特别介绍了多孔材料对于消除移动源污染的应用。最后,对当前无机多孔材料在制备方面存在的问题进行了总结,并对今后无机多孔材料的制备方法和研究方向进行了展望。     

引导性组织再生材料的研究进展

牙周病是人类最常见的口腔疾病之一,是成年人失牙的最主要原因。近年来,随着引导性组织再生(guided tissue regeneration,GTR)技术的建立和发展,GTR材料为治疗牙周病提供了一种有效的手段,同时也成为生物医用材料领域的研究热点。文章针对近些年来GTR材料的发展情况,综述了目前GTR材料的主要种类,阐述了GTR材料的作用原理,并根据植入性组织工程材料的要求,针对目前GTR材料存在的缺点提出了相应的改进方法,展望了GTR材料的发展趋势。     

Design Strategies of Si/C Composite Anode for Lithium-Ion Batteries

Silicon-based materials that have higher theoretical specific capacity than other conventional anodes, such as carbon materials, Li₂TiO₃ materials and Sn-based materials, become a hot topic in research of lithium-ion battery (LIB). However, the low conductivity and large volume expansion of silicon-based materials hinders the commercialization of silicon-based materials. Until recent years, these issues are alleviated by the combination of carbon-based materials. In this review, the preparation of Si/C materials by different synthetic methods in the past decade is reviewed along with their respective advantages and disadvantages. In addition, Si/C materials formed by silicon and different carbon-based materials is summarized, where the influences of carbons on the electrochemical performance of silicon are emphasized. Lastly, future research direction in the material design and optimization of Si/C materials is proposed to fill the current gap in the development of efficient Si/C anode for LIBs.     

钙钛矿材料光催化还原CO2综述

利用半导体材料光催化还原CO2合成可燃物是目前解决能源危机和缓解温室效应的理想途径.本文对几种钙钛矿型材料,包括纯无机卤化物钙钛矿材料、金属有机钙钛矿材料、氧化物型钙钛矿材料和复合型钙钛矿材料在光催化还原CO2领域的应用进行了简单的归纳与总结.     

二维材料插层改性方法研究进展

二维材料凭借其独特的电学、光学、磁学等性质引起了广泛关注,如何处理二维材料使其改性是目前的研究热点。 插层方法是目前调控二维材料性质的主要方法之一。 插层过程中,客体粒子插入主体材料的范德华层间,造成二维材料物理与化学性质的变化。 气相、液相、固相插层均可以使二维材料的性质得到提升。 本文主要介绍二维材料插层方法,分析其不同优势和限制条件,并展望如何综合应用插层方法更好地提升二维材料电学、光学等性能。     

Removal of Organic Pollutants from Water Using Superwetting Materials

The frequent occurrence of water pollution accidents and the leakage of organic pollutants have caused severe environmental and ecological crisis. It is thus highly imperative to find efficient materials to solve the problem. Inspired by the lotus leaf, superwetting materials are receiving increasing attention in the field of removal of organic pollutants from water. Various superwetting materials have been successfully generated and integrated into devices for removal of organic pollutants from water. On the basis of our previous work in the field, we summarized in this account the progress of removal of (1) floating and underwater insoluble, (2) emulsified insoluble, and (3) both insoluble and soluble organic pollutants from water using superwetting materials including superhydrophobic & superoleophilic materials, superhydrophilic & underwater superoleophobic materials, and materials with controllable wettability. The superwetting materials are in the forms of 2D porous materials, 3D porous materials and particles, etc. Finally, the current state and future challenges in this field are discussed. We hope this account could shed light on the design of novel superwetting materials for efficient removal of organic pollutants from water.     

长余辉发光材料研究进展

90年代发现和发展起来的铝酸盐体系长余辉发光材料是一类重要的新 型能源材料和节能材料。本文主要综述了最近几年来铝酸盐体系中长人科辉发光研究进展。指出了氧化物体系长余辉发光材料的特点和优势,总结了新型长余辉发光材料的基质和激活剂种类、性质及其对稀土 离子 长余辉发光性能的影响和作用,概括了长余辉发光模型,并提出了今后研究和应用的发展方向。     

Influence of Amylose-Amylopectin Ratio on Properties of Extruded Starch Plastic Sheets

Abstract

Starch plastic sheets were prepared by extrusion processing of mixtures of granular high-amylopectin and high-amylose starches in the presence of glycerol and water as plasticizers. Amylose content varied between 0 and 70% (w/w). Structural characterization and determination of the mechanical properties of the sheets were performed after aging the materials between 40–65% relative humidity for 2 and 35 weeks and at 90% relative humidity for two weeks. The materials were semicrystalline and viscoelastic. The materials were described as complex heterogeneous multiphase materials. They consisted of amorphous and crystalline phases of amylose and amylopectin as well as granular structures and domains of amylose, amylopectin and amylose-amylopectin helices. Single-helical type crystallinity was formed solely by amylose directly after processing while B-type crystallinity was rapidly formed in amylose-rich materials and slowly during aging of amylopectin-rich materials.

The stress-strain and stress-relaxation properties were related to differences in amylose content, degree of crystallization and water content. The amorphous amylopectin rich materials were flexible and soft but showed an increase in stiffness and a decrease in elongation due to crystallization. Amylopectin-rich materials showed unfavorable relaxation, shrinkage and cracking during aging. The materials rich in amylopectin were sensitive to water content while the amylose-rich materials were not sensitive to water in the range of 9–13% (w/w). Stress-strain relaxation behaviors of the materials were dependent on starch structure and on experimental conditions such as strain rate and extension by which the ratio of elastic and viscous response were varied. An increase in relaxation times was found with increasing amylose content and water content for the materials with solely amylose crystallinity.     

功能金属-有机骨架材料的应用

金属有机骨架（Metal-Organic Framework,MOFs）材料由于其特殊的结构引起了科学家的广泛关注,它作为多孔材料与无机或有机的多孔材料相比具有特殊的优势,是目前新功能材料研究领域的一个热点。本文总结了金属有机骨架多孔材料在分离纯化、催化、微反应器、负离子交换、复合功能材料等方面的应用进展,并对这种新型多功能材料在设计、合成与应用方面的广阔前景作了展望。     

不同光敏剂对光敏热成像材料感光性能的影响

本文考察了不同制备方法、不同种类的光敏剂对以苯并三氮唑银为银源的光敏热成像材料感光性能的影响。结果显示原位法中以AgI和AgBrI为光敏剂的PTG材料具有较高的感光度,分别为以AgBr为光敏剂的参比样片感光度的16倍和2.4倍;异位法制备的PTG材料中,以AgBrI乳剂为光敏剂的感光度比以AgBr为光敏剂的感光度高,是其3倍;此外,同是以AgBr为光敏剂、用异位法制备的PTG材料的感光度比原位法制备的PTG材料感光度高。文中初步分析讨论了出现以上实验结果的原因。     

利用珍珠岩尾粉制备发泡材料

以信阳珍珠岩尾粉、凝灰岩为主要原料,石墨为发泡剂,添加适量废玻璃粉、添加剂,在不同的温度下烧制成发泡材料.利用热分析仪分析了混合料的发泡温度,用x射线衍射仪、压力试验机等对样品进行结构表征和性能测试.结果表明:珍珠岩尾粉凝灰岩发泡材料合适的发泡温度为930?.保温时间为30min,样品密度为0.43g/cm3,抗压强度...     

不同掺杂元素对无钴高镍正极材料的影响

随着动力电动汽车的需求不断增加,发展低成本、高能量密度的锂离子电池正极材料成为关键。无钴高镍正极材料因其能量密度高、倍率性能好而受到了极大的关注。对于无钴高镍正极材料在循环过程中热稳定性差、容量衰减等问题,研究者们虽通过不同的掺杂元素改善了材料的电化学性能,但对不同掺杂元素的作用机理研究尚浅。本文综述了近年来无钴高镍正极材料掺杂改性方面的研究进展,重点总结了不同掺杂元素对改善材料电化学性能的作用机理。综合分析表明,向无钴高镍正极材料引入掺杂元素,尽管掺杂元素在材料中的主要作用机理不尽相同,但均都提高材料电化学性能,从而改善了无钴高镍材料固有的问题。最后,对无钴高镍正极材料改善策略的发展方向进行了展望,提出了多重改善策略协同应用的可行性方案。     

Synthesis and Morphogenesis of Organic and Inorganic Polymers by Means of Biominerals and Biomimetic Materials

We have studied the simultaneous synthesis and morphogenesis of polymer materials with hierarchical structures from nanoscopic to macroscopic scales. The morphologies of the original materials can be replicated to the polymer materials. In general, it is not easy to achieve the simultaneous synthesis and morphogenesis of polymer material even using host materials. In the present work, four biominerals and three biomimetic mesocrystal structures are used as the host materials or templates and polypyrrole, poly(3‐hexylthiopehene), and silica were used as the precursors for the simultaneous syntheses and morphogenesis of polymer materials. The host materials with the hierarchical structure possess the nanospace for the incorporation of the monomers. After the incorporation of the monomers, the polymerization reaction proceeds in the nanospace with addition of the initiator agents. Then, the dissolution of the host materials leads to the formation and morphogenesis of the polymer materials. The scheme of the replication can be classified into the three types based on the structures of the host materials (types I–III). The type I template facilitates the hierarchical replication of the whole host material, type II mediates the hierarchical surface replication, and type III induces the formation of the two‐dimensional nanosheets. Based on these results, the approach for the coupled synthesis and morphogenesis can be applied to a variety of combinations of the templates and polymer materials.     

Development of fully functionalized photorefractive polymers

In this article, we review recent progress in the area of photorefractive polymers. Photorefractive (PR) polymers are multifunctional materials which combine photoconductivity and electro‐optic response to show a new phenomenon: light‐induced reversible modulation of the refractive index. Because of their multifunctional features, design, synthesis and preparation of these materials exhibiting high performance is an intellectual challenge. Moreover, numerous applications of photorefractive materials in optical devices have been established using inorganic materials. Utilizing the unique features of organic polymeric materials to prepare useful devices is an engineering challenge. In the past several years, research in this area has gained momentum because numerous new materials which possess better characteristic photorefractive parameters than their inorganic counterparts have been synthesized. Several interesting devices have been presented. Two different approaches have been developed to synthesize and prepare PR polymers, namely composite materials and fully functionalized polymers. Both approaches have had success in identifying new materials and in gaining understanding of the design principles of better materials. This paper discusses these aspects and gives a prospective view about this field.     

基于低本底Ge (Li)γ谱仪的建材比活度检测

讨论了利用低本底Ge(H)γ谱仪对建材样品的比活度检测,测量对象包含花岗岩、大理石等天然石材和水泥、红砖等人工合成建材以及人造石等,并且将测量结果与国标GB 6566 -2001《建筑材料放射性核素限量》[1]进行了比对,从而确定了主体建筑材料和装饰材料的辐射水平,在此基础上将它们进行了分类和比对,因而对所使用建材的放...