复合淀粉-丙烯酰胺聚合物在秦始皇帝陵和汉阳陵土遗址脱盐中的应用

制备了一种复合淀粉接枝丙烯酰胺高分子聚合物(St-PAM).经红外光谱、扫描电子显微镜等方法表征发现,淀粉与丙烯酰胺接枝共聚形成具有多层片状、尖锐断面及多重孔道的大比表面积的聚合物.同时,吸水性能测试表明其具有良好的吸水耐盐性能.将材料应用于秦始皇帝陵K9901陪葬坑及汉阳陵地下遗址进行脱盐示范,结果表明,吸水脱盐材料对试验区域表面土层主要成盐离子Ca^(2+)和SO_4^(2-)的移除率分别达到70%和90%左右,对含量较少的其他盐类离子,如Na^+、NO_3^-等也有明显效果.     

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。     

《功能高分子材料》

全书共分17章，结合功能高分子材料的结构与性能、制备方法及应用领域，对离子交换树脂，吸附树脂，离子交换纤维和活性碳纤维，高分子膜分离材料，高分子色谱固定相，高分子试剂，高分子负载催化剂，导电高分子材料，电效发光聚合物材料，非线性光学高分子材料，液晶高分子材料，感光高分子材料，医用高分子材料，环境敏感高分子材料，高分子电解质，高分子染料，淀粉，纤维素衍生物高分子等进行了详细论述。[第一段]     

《功能高分子材料》

全书共分17章，结合功能高分子材料的结构开发性能，制备方法及领域，对离子交换树脂，吸附树脂，离子交换纤维和活性碳纤维，高分子膜分离材料，高分子色谱固定相，高分子试剂。     

晶须及其在高分子材料中的应用

简要介绍了目前高分子材料改性中常用的晶须，如钛酸钾晶须、硼酸铝晶须、氧化锌晶须等，主要对其在橡胶、热塑性弹性体、热塑性树脂以及热固性树脂中的应用作了详尽论述。     

单一高分子白光材料

首先阐明了单一白光高分子材料体系的构造原理——"部分能量转移和电荷限制机制",然后分别从双色白光高分子和三色白光高分子两个方面,详细介绍了单一白光高分子材料体系的发展历程与研究进展,并在此基础上,展望了单一高分子白光材料未来的发展方向.     

大唐西市土遗址苔藓物种鉴定及其病害成因分析

通过光学显微镜与扫描电子显微镜(SEM)相结合的分析方法对大唐西市土遗址表面滋生的苔藓进行分离鉴定,确定该苔藓为四川湿地藓Hyophila setschwanica(Broth.).在此基础上,采用X射线荧光光谱(XRF)、X射线衍射(XRD)等分析手段对遗址内5处土样进行了分析.结果表明该遗址土壤中钙含量远高于一般表土平均量,且土壤含水量最高为23%,p H呈弱碱性.该种土壤环境为四川湿地藓的繁殖提供了有利的条件,导致四川湿地藓病害的广泛滋生,充分解释了四川湿地藓生长旺盛的根本原因,为后期有效治理该病害提供了一定理论依据.     

应用于药物控释系统中的生物降解高分子材料

生物降解高分子材料具有良好的生物相容性和生物降解性而成为人们关注的药物控释材料。本文简要介绍了生物降解高分子材料的降解机理，综述了生物降解高分子材料的发展现状，展望了今后的发展方向。     

高分子发光材料研究进展

高分子发光材料具有可溶液加工的特点,适于制备低成本、大面积发光器件,在平板显示和固体照明领域具有潜在的应用前景.近年来,高分子发光材料在发光机制、材料体系和器件性能等方面均取得了重要进展,各项性能得到了大幅度提升.本文从材料和器件角度,围绕高分子荧光材料、高分子磷光材料和高分子热活化延迟荧光材料的分子设计策略,总结和评述了高分子荧光材料的颜色调控和效率提升途径,高分子磷光材料的磷光掺杂剂、高分子主体、拓扑结构等因素对发光性能的影响规律,以及高分子热活化延迟荧光材料的设计原理和典型材料体系.同时,分析了高分子发光材料未来发展面临的机遇和挑战.     

智能高分子材料

本文介绍了形状记忆树脂、高分子凝胶、本征导电聚合物、高分子复合材料、高分子薄膜、超分子聚合物、液晶聚合物等智能高分子材料的一般概念及其应用的一些方面。     

Highly absorbing superabsorbent polymer

Acrylic acid (AA)–acrylamide (AM) based superabsorbent polymers (SAP) were synthesized by inverse suspension polymerization using potassium‐persulfate as the initiator, N,N′‐methylene bisacrylamide (BIS) as a crosslinker, sorbitan monostearate (Span 60) as the dispersant, cyclohexane as the solvent, and bis(methacryloylamino)‐azobenzene as the hydrophobic surface crosslinker. The influence of the polymerization parameters on the properties of the SAPs, water absorption (Q), morphology of the SAPs, swelling kinetics, salt resistance, and the reversibility of water absorption were investigated. The prepared SAPs have excellent water absorption, rapid water uptake, and good resistance to NaCl solutions. Furthermore, they show better reversible water uptake than the previously reported SAPs. The average water absorbency is 2800 g/g and 181 g/g of liquid absorbance in 0.025M NaCl solution. The initial water uptake rate is 1357 g/g/min and the reversibility of water absorption is 200 g/g in the repeated fourth cycle. © 2008 Wiley Periodicals, Inc. J Polym Sci Part A: Polym Chem 46: 1357–1364, 2008     

Acrylamide–itaconic acid superabsorbent polymers and superabsorbent polymer/mica nanocomposites

Superabsorbent polymer acrylamide (AM)/itaconic acid (IA) and its nanocomposite were synthesized by redox polymerization in an aqueous solution of both monomers with mica used as an inorganic additive. The influences of IA concentration, mica content, and crosslinker concentration on the water absorption and physical properties of the superabsorbent polymer and its nanocomposite were examined. Water absorbency in artificial urine by the synthesized copolymers, and the gel strength of the superabsorbent copolymers and their nanocomposites, were tested with loads of 0.28 or 0.70 psi. Transmission electron micrographs and X‐ray diffraction confirmed that the polymer chains were successfully intercalated into the silicate layers in the mica. The water absorbency and the artificial urine absorbency of the composite with an AM‐to‐IA mole ratio of 95:5, 0.2% mol N‐MBA, and 5% w/w mica were 748 ± 5 and 76 ± 2 g g^?1, respectively, whilst the neat copolymer achieved only 640 ± 7 and 72 ± 2 g g^?1 in water and artificial urine, respectively. The viscoelastic behavior suggested that the swollen gel of the nanocomposites exhibited mechanical stability and elasticity. Copyright © 2009 John Wiley & Sons, Ltd.     

From capacitive deionization to desalination batteries and desalination fuel cells

The considerable growth of the world population, concomitant with an increase in environmental pollution, aggravates the antinomy between supply and demand for drinking water. Various desalination technologies have been developed to address this issue, allowing for abundant saltwater as a source for drinking water. Electrochemical desalination attracts more and more attention due to its high energy efficiency, facile operation, and low cost. Especially within the last decade, tremendous scientific progress on electrochemical desalination technologies has been made. This article reviews the development of electrochemical desalination technologies and introduces a facile classification into three generations based on the different working principles. The cell architecture, metrics, advantages, and disadvantages of other electrochemical desalination technologies are introduced and compared.     

Comparison of effects of sodium carboxymethylcellulose and superabsorbent polymer on coal dust wettability by surfactants

The interactions of sodium carboxymethylcellulose (SCMC) and a superabsorbent polymer (SA) with aqueous solutions of active surfactants such as sodium dodecylbenzenesulfonate (SDBS) and alkyl polyglycoside were investigated in terms of surface tension, sink time, and foam liquid fraction. An SA is a more suitable surfactant than SCMC for wetting coal dust, and SDBS and an SA additive in an SA:SDBS weight ratio of 1:4 is the best coal dust suppressant.     

Glycerol‐lactic acid star‐shaped oligomers as efficient biobased surface modifiers for improving superabsorbent polymer hydrogels

The glycerol‐lactic acid‐based star‐shaped modifier (SM) were synthesized and employed for surface modification of hygienic superabsorbent polymer (SAP) hydrogels for the first time. Surface crosslinking was carried out to increase the saline‐absorbency under load (AUL) and the swollen gel strength. The surface treatment process was analyzed employing free absorbency and AUL tests, salt sensitivity, attenuated total reflectance‐Fourier‐transform infrared spectroscopy (ATR‐FTIR), oscillatory rheometry, as well as scanning electron microscopy analysis. The effect of the branched architecture and the contents of SM on the properties of the modified SAPs were studied. The implementation of surface treatment leads to increase up to a 28% in the AUL of the modified SAP. Moreover, the loss modulus was surprisingly increased, while the storage modulus was enhanced (possibly due to the star architecture of oligomers). M_c and crosslink density values have been estimated based on modified rubber elasticity theory. Salt sensitivity factor (f) was calculated; the modified samples showed lower salt sensitivity in NaCl (f = 0.7) and CaCl₂ (f = 0.93–0.95) compared with the intact SAP (f = 0.84 for NaCl, and f = 0.95–0.97 for CaCl₂).     

Preparation and properties of macroporous superabsorbent composite

A fast swelling macroporous superabsorbent composite was prepared by the copolymerization of partially neutralized acrylic acid, 2‐acryloylamino‐2‐methyl‐1‐propanesulfonic acid (AMPS), and attapulgite (APT) using N, N′‐methylenebisacrylamide (NNMBA) and trihydroxymethyl propane glycidol ether as crosslinking agents. For fast swelling rate (SR), sodium bicarbonate, polyethylene glycol (PEG), and sodium carboxymethylcellulose (CMC) were introduced into the reaction system as foaming agent and stabilizers. Furthermore, the copolymer was surface‐crosslinked with glycerine and sodium silicate, and then blended with aluminum sulfate and sodium carbonate. The influences of the amount of NNMBA, trihydroxymethyl propane glycidol ether, PEG, CMC and sodium bicarbonate, and reaction temperature on water absorbence both under atmospheric pressure and load, and on the SR were investigated. The water absorbence of the sample in 0.9 wt% NaCl aqueous solution under atmospheric pressure and certain load (P ≈ 2 × 10³ Pa) could reach 54 and 8 g.g^?1, respectively, and the SR could reach 0.471 ml g^?1 s^?1. The excellent strength, resilience, and the dispersion of swollen hydrogel were also observed for the sample. Moreover, the surface morphology of macroporous superabsorbent composite was characterized using scanning electron microscope. Copyright © 2009 John Wiley & Sons, Ltd.     

Converting water absorbent polymer to alcohol absorbent polymer

In this paper, a commercial water absorbent polymer based on poly (sodium acrylate) (PAANa) was converted to an alcohol absorbent polymer. PAANa collapses in alcoholic swelling media such as ethanol and methanol. In the present paper, first, a full interpenetrating polymer network (IPN) gel was prepared through immersing PAANa hydrogel in a solution containing 2‐acrylamido2‐methyl propane sulfonic acid (AMPS), polyethylene glycol dimetahcrylate and ammonium persulfate. The second network was formed in hydrated PAANa through heating. It was synthesized in two conditions by chemical crosslinker and crosslinker‐free. The IPN was acid treated to investigate the effect of removing Na⁺ on alcohol absorbency. The synthesized IPN gels have the ability of absorbing up to 21 and 39 g/g ethanol and methanol, respectively. The samples which were synthesized using the chemical crosslinker in the second stage had more alcohol absorbency in comparison with the crosslinker‐free samples. Unexpectedly, acid treatment caused a decrease in alcohol absorbency. The IPN gels were characterized through thermogravimetric analyses (TGA) and dynamic mechanical thermal analysis (DMTA). The DMTA results confirmed the IPN structure of the gels, two distinctive peaks, which can be attributed to PAANa, and poly (AMPS) was observed in tan delta figures. TGA thermograms demonstrated that IPN had lower thermal stability in comparison with the initial PAANa, which can be attributed to higher vulnerability of SO₃H group for degradation that reduced initial decomposition temperature. Copyright © 2012 John Wiley & Sons, Ltd.     

Three-dimensional porous photo-thermal fiber felt with salt-resistant property for high efficient solar distillation

The urgent need for fresh water resource is a public issue facing the world. Solar distillation for seawater desalination is a promising freshwater production m...     

淀粉/AMPS/DMC高吸水树脂的合成及对重金属离子的吸附性能

以可溶性淀粉、2-丙烯酰胺-2-甲基丙磺酸(AMPS)、甲基丙烯酰氧乙基三甲基氯化铵(DMC)为单体,过硫酸铵为引发剂,N,N’-亚甲基双丙烯酰胺(NMBA)作交联剂,采用水溶液聚合法,合成了一种新型淀粉/AMPS/DMC高吸水树脂。通过红外光谱、扫描电镜和热重分析确定了所合成高吸水树脂的结构组成,并研究了其对Cu~(2+)、Ni~(2+)两种重金属离子的吸附能力。结果显示,淀粉/AMPS/DMC高吸水树脂对于CuSO_4和NiSO_4的吸附极限浓度均为2g/L,均在2~3 min内吸附完全,其等温吸附行为符合Freundlich方程。