TEMPO氧化纳米纤维素的制备及其对纸张性能的影响

以漂白桉木浆和废报纸为原料,利用2,2,6,6-四甲基哌啶-1-氧自由基(TEMPO)/NaBr/NaClO氧化体系对其进行处理制备氧化纳米纤维素,并探究两种氧化纳米纤维素添加量对纸张性能的影响。研究结果表明:桉木浆氧化纳米纤维素的平均纤维长度约为75~95 nm,长径比约为6.5~8.5,均高于废报纸氧化纳米纤维素(45~75 nm,4~6)。添加桉木浆氧化纳米纤维素和废报纸氧化纳米纤维素均可使纸张抗张指数、耐破指数和撕裂指数增加。添加6%桉木浆氧化纳米纤维素时,纸张抗张指数由21.16(N·m)/g增加至31.37(N·m)/g,耐破指数由1.32(kPa·m^(2))/g增加至1.84(kPa·m^(2))/g,撕裂指数由6.61(mN·m^(2))/g增加至8.03(mN·m^(2))/g;添加6%废报纸氧化纳米纤维素时,纸张抗张指数由21.16(N·m)/g增加至27.22(N·m)/g,耐破指数由1.32(kPa·m^(2))/g增加至1.79(kPa·m^(2))/g,添加4%废报纸氧化纳米纤维素,纸张撕裂指数由6.61(mN·m^(2))/g增加至8.12(mN·m^(2))/g,可见,添加桉木浆氧化纳米纤维素效果更佳。添加1%阳离子淀粉,有助于两种氧化纳米纤维素对纸张强度的提高,其中桉木浆氧化纳米纤维素可使抗张指数最大提高51.09%,耐破指数提高50.00%,撕裂指数提高27.62%。     

Polystyrene composites of single‐walled carbon nanotubes‐graft‐polystyrene

Single‐walled carbon nanotubes (SWCNTs) dispersed in N‐methylpyrrolidone (NMP) were functionalized by addition of polystyryl radicals from 2,2,6,6‐tetramethyl‐1‐piperidinyloxy‐ended polystyrene (SWCNT‐g‐PS). The amount of polystyrene grafted to the nanotubes was in the range 20‐25 wt% irrespective of polystyrene number‐average molecular weight ranging from 2270 to 49 500 g mol^?1. In Raman spectra the ratios of D‐band to G‐band intensity were similar for all of the polystyrene‐grafted samples and for the starting SWCNTs. Numerous near‐infrared electronic transitions of the SWCNTs were retained after polymer grafting. Transmission electron microscopy images showed bundles of SWCNT‐g‐PS of various diameters with some of the polystyrene clumped on the bundle surfaces. Composites of SWCNT‐g‐PS in a commercial‐grade polystyrene were prepared by precipitation of mixtures of the components from NMP into water, i.e. the coagulation method of preparation. Electrical conductivities of the composites were about 10^?15 S cm^?1 and showed no percolation threshold with increasing SWCNT content. The glass transition temperature (T_g) of the composites increased at low filler loadings and remained constant with further nanotube addition irrespective of the length and number of grafted polystyrene chains. The change of heat capacity (ΔC_p) at T_g decreased with increasing amount of SWCNT‐g‐PS of 2850 g mol^?1, but ΔC_p changed very little with the amount of SWCNT‐g‐PS of higher molecular weight. The expected monotonic decrease in ΔC_p coupled with the plateau behavior of T_g suggests there is a limit to the amount that T_g of the matrix polymer can increase with increasing amount of nanotube filler. Copyright © 2012 Society of Chemical Industry     

Interpolymer radical coupling: A toolbox complementary to controlled radical polymerization

The current review focuses on the relevance and practical benefit of interpolymer radical coupling methods. The latter are developing rapidly and constitute a perfectly complementary macromolecular engineering toolbox to the controlled radical polymerization techniques (CRP). Indeed, all structures formed by CRP are likely to be prone to radical coupling reactions, which multiply the available synthetic possibilities. Basically, the coupling systems can be divided in two main categories. The first one, including the atom transfer radical coupling (ATRC), silane radical atom abstraction (SRAA) and cobalt-mediated radical coupling (CMRC), relies on the recombination of macroradicals produced from a dormant species. The second one, including atom transfer nitroxide radical coupling (ATNRC), single electron transfer nitroxide radical coupling (SETNRC), enhanced spin capturing polymerization (ESCP) and nitrone/nitroso mediated radical coupling (NMRC), makes use of a radical scavenger in order to promote the conjugation of the polymer chains. More than a compilation of macromolecular engineering achievements, the present review additionally aims to emphasize the particularities, synthetic potential and present limitations of each system.     

激光诱导萘醌激发三重态猝灭反应的TR-ESR研究

利用时间分辨电子自旋共振（TR-ESR）方法,研究了稳定自由基TEMPO和生物抗氧化剂维生素C（VC）对萘醌（NQ）激发三重态 的猝灭机理和猝灭动力学。光解NQ/EG体系, 从EG上抽氢生成萘醌中性自由基 和乙二醇碳自由基。当体系中加入稳定自由基TEMPO时,TEMPO对3NQ* 有明显的猝灭作用,猝灭速率常数为1.14*106Lmol-1s-1。对于NQ/VC/EG-H2O溶液,3NQ*不仅可以从EG上夺氢,还从VC上夺氢,VC对3NQ*也有明显的猝灭作用,猝灭速率常数为1.11*107Lmol-1s-1。TEMPO和VC对3NQ*的猝灭反应都受扩散控制。     

NaOH/硫脲/尿素预处理对棉纤维TEMPO选择性氧化的影响

采用NaOH/硫脲/尿素体系对棉纤维进行预处理,再进行选择性氧化,可以有效提高氧化棉纤维的羧基生成量。对比研究预处理棉纤维与普通棉纤维经2,2,6,6-四甲基哌啶氮氧自由基(TEMPO)选择性氧化后的羧基含量、纤维形态以及黏度。结果表明,经NaOH/硫脲/尿素体系预处理能够加快氧化反应速率,增加羧基生成量,但对纤维有一定的损伤。其中,羧基生成量随着纤维质量分数的增加呈先增加后减少的趋势,当纤维素质量分数为6%时,羧基生成量最大,棉纤维的可及度和反应性提高。纤维形态分析表明,经NaOH/硫脲/尿素体系预处理的棉纤维润胀溶解程度要大于未预处理的氧化棉纤维;在TEMPO的氧化条件下,氧化棉纤维的相对黏度随着纤维素质量分数增加而增加;当纤维素质量分数较高时,氧化过程中氧化棉纤维的羧基生成量和降解程度都近似于原纤维。     

TEMPO氧化纤维素纳米纤丝对多壁碳纳米管分散性的影响

以竹粉为原料,采用2,2,6,6-四甲基哌啶-1-氧自由基（TEMPO）氧化法通过改变NaClO的添加量制备出不同羧基含量及形态的纤维素纳米纤丝（CNFs）,并将制备的CNFs作为分散剂对多壁碳纳米管（MWCNTs）进行分散处理,得到不同分散浓度的CNFs/MWCNTs悬浮液,采用Beer-Lambert定律对MWCNTs的分散量进行测定,并采用原子力显微镜（AFM）、激光粒度分析仪（LPSA）等手段评价了不同羧基含量及形态的CNFs对MWCNTs的分散效果。结果表明:随着NaClO添加量的增加,CNFs的横截面直径逐渐变小,羧基含量逐渐增加,同时,CNFs对MWCNTs的分散量逐渐增大;当CNFs的羧基含量从0.635 mmol/g增加到1.646 mmol/g时,对MWCNTs的分散量从19%增加到39%;不同CNFs/MWCNTs悬浮液中的粒度分布系数（PDI）值均小于0.3,且不同悬浮液的Zeta电位绝对值均高于30 mV,表明不同羧基含量的CNFs均能对MWCNTs有较好的分散效果;同时,随着羧基含量的增加,CNFs对MWCNTs的分散效果越好,CNFs/MWCNTs复合薄膜的抗拉应力逐渐增大,而且电阻率逐渐降低,当CNFs羧基含量为1.646 mmol/L时,CNFs/MWCNTs复合薄膜抗拉应力达到了91 MPa,薄膜电阻率低至0.1460 Ωcm。      

木素对TEMPO氧化竹浆制备纳米纤维素的影响

以卡伯值不同的2种未漂硫酸盐竹浆(卡伯值为25.5和11.7的竹浆分别标记为SHK和SLK)为原料,通过TEMPO/NaBr/NaClO体系氧化及高压均质处理,制备了TEMPO氧化纳米纤维素(TOCN),并利用抽滤法制备TOCN膜。系统地研究了2种竹浆的TEMPO氧化过程、TEMPO氧化浆性能、TOCN性能及TOCN膜的力学性能等,探讨了木素对竹浆TEMPO氧化过程和TOCN制备的影响。结果表明,SHK的TEMPO氧化速率高于SLK,但SLK-TEMPO氧化浆的羧基含量达到1.01 mmol/g,高于SHK-TEMPO氧化浆的羧基含量(0.89 mmol/g)。2种TOCN形态结构差异不大,均呈纤丝状结构,直径约为5～8 nm,长径比>100,且均保持纤维素I的晶型结构;SLK-TOCN的结晶度和悬浮液的透光度均略高于SHK-TOCN。2种TOCN膜均具有优良的光学性能和力学性能,SLK-TOCN膜的杨氏模量、拉伸强度及裂断伸长率分别为2.6 GPa、92 MPa和10.9%,均高于SHK-TOCN膜的2.4 GPa、90 MPa和8.7%。     

苯甲醇液相氧化合成苯甲醛的连续流工艺

在液相条件下以苯甲醇为原料,次氯酸钠溶液为氧化剂,2,2,6,6-四甲基哌啶-1-氧自由基（TEMPO）为氧化催化剂,在连续流微通道反应器中液相氧化合成苯甲醛。考察了苯甲醇与次氯酸钠溶液的物质的量配比、催化剂用量、反应温度、溶剂以及停留时间对苯甲醛合成的影响,并进行了工艺优化。结果表明：当次氯酸钠与苯甲醇的物质的量比为1.25∶1、苯甲醇与TEMPO的物质的量比为1∶0.01、苯甲醇与DMF的体积比为1∶10、 pH=8、反应温度为0℃、停留时间为10min时,苯甲醛的收率可达95.1%。     

TEMPO‐Copper(II) Diimine‐Catalysed Oxidation of Benzylic Alcohols in Aqueous Media

In situ generated copper(II)‐diimine complexes combined with TEMPO (2,2,6,6‐tetramethylpiperidinyl‐1‐oxyl radical) were studied in the oxidation of benzylic alcohols, the focus being on enviromentally benign reaction conditions. In this respect, reactions were studied in aqueous alkaline solutions and dioxygen was used as an end oxidant. This simple catalytic system turned out to be highly efficient and selective in the oxidation of primary and secondary benzylic alcohols to their corresponding carbonyl compounds. Under optimised reaction conditions [5 mol % of TEMPO, 3 mol % of copper(II ) diimine, pH 12.6–13.5, 80 °C, 10 bar O₂] benzyl alcohol was quantitatively and selectively oxidised to benzaldehyde. According to ESI‐MS studies, coordination of TEMPO, as well as deprotonated benzyl alcohol to the parent copper‐diimine complex in aqueous solutions is feasible. Supported by these observations a plausible reaction mechanism is proposed for the oxidation reaction.     

Waste‐Free Electrochemical Oxidation of Alcohols in Water

We describe a new sol‐gel molecular electrode made of a thin layer of organosilica doped with the nitroxyl radical TEMPO (2,2,6,6‐tetramethylpiperidine‐1‐oxyl) electrodeposited on the surface of an ITO‐coated glass and its employment as a selective and versatile oxidation catalyst in the electrochemical conversion of different alcohols to carbonyl compounds. Environmentally friendly water or a water/acetonitrile mixture buffered with bicarbonate is used as solvent. The electrode is highly stable and it can be reused for a prolonged period of time allowing easy separation from the products.