2,3,5-三甲基氢醌制备工艺研究进展

综述了2,3,5-三甲基氢醌的主要合成方法及其生产工艺,并简要分析了该产品工艺开发的新动态.指出2,3,5-三甲基氢醌是合成维生素E的重要中间体,国内来源不足,约60％依赖进口;目前,国内生产工艺严重落后,急需进行工艺改进,以提高产品质量、降低生产成本.     

顺丁烯二酸酐羧化淀粉的制备

顺丁烯二酸酐羧化淀粉的制备;淀粉;顺丁烯二酸酐;羧化     

热塑性淀粉的制备、性质及应用研究进展

淀粉由于可降解、来源广泛、价格低廉、可再生而被认为是最具发展前景的生物降解材料之一,因此,热塑性淀粉材料的研究与开发备受关注。本文综述了近年来热塑性淀粉材料的研究进展情况,内容主要涉及了热塑性淀粉的制备、性质和应用。     

酶法制备微孔淀粉的研究进展

微孔淀粉是淀粉酶在低于淀粉糊化温度下水解生淀粉形成的一种新型变性淀粉.本文综述了酶法制备微孔淀粉的一些相关影响因素,并探讨了酶法制备微孔淀粉的基本研究成果和进展,以及酶法淀粉微孔化技术的前景展望.     

酯化淀粉的研究进展

对淀粉进行酯化改性可以改善淀粉的性能,从而提高其应用范围.综述了不同种类酯化淀粉的制备,包括酯化剂的种类、酯化方法,评价不同种类、取代度的酯化淀粉的性能以及应用性能,并预测了其今后的发展趋势.     

高取代度淀粉醋酸酯的制备

改善淀粉热塑性的方法主要是用塑化剂对其进行处理和用化学方法制备淀粉衍生物,使羟基被长链取代,减弱淀粉分子间的氢键,大分子可在较低温度下运动,从而达到降低熔融温度的目的。近年来,对高取代度淀粉醋酸酯已有报道^[1-5],Sagar等^[2]认为,粉酯的取代度越高,侧链越长,热塑性和亲水性的改变就越明显,而且酯基可起到内增塑作用,可塑性的提高反映在材料的流变学,热学及力学性能的改变上,Maheras等^[3]用高取代度的淀粉醋酸酯和纤维素醋酸酯共混,制成了纤维和塑料制品,由于高取代度淀粉醋酸酯熔点较高,Brochers等^[4]提出通过加入分子量为100－1000的增塑剂,如甘油三醋酯等,可使熔融温度降到150℃左右,Tanaka等^[6]将淀粉和乙烯类化合物在酯化催化剂的作用下反应,得到的淀粉酯性能较为理想,分子量高,具有相当好的机械性能和耐水性,国外专利报道了以甲磺酸（MSA）为催化剂制备淀粉醋酸酯的方法^[7},但对其结构和性能尚未作系统的研究,本文以冰醋酸和醋酸酐为混合酸,MSA为催化剂,制得了具有较高取代度的高直链淀粉醋酸酯,并系统研究了反应温度,反应时间,反应物比例等不同反应条件对取代度的影响,通过红外分析,特性粘度测试,溶解性等分析手段,表征了高直链淀粉醋酸酯的结构与性能。     

疏水淀粉衍生物的制备

淀粉酯化;长链烯基琥珀酸酐;疏水淀粉衍生物的制备     

脂肪醇聚氧乙烯醚催化干法制备阳离子淀粉

阳离子淀粉是淀粉与阳离子试剂反应制得的一类很重要的淀粉衍生物。已广泛用于造纸、纺织、食品、油田、粘合剂、化妆品和污水处理等行业 [1 ,2 ]。阳离子淀粉传统的制备方法是溶液法 ,因反应时间长、溶剂消耗量大、产品成本高、对环境污染严重等 ,从而使产品的开发和应用受到限制。自 Caesar等 [3,4 ]发现干法制备阳离子淀粉的方法以来 ,受到了变性淀粉研究工作者的重视。在用 Na OH作催化剂 ,干法制备季铵型阳离子淀粉方面 ,国内也做了许多研究工作 ,取得了许多研究成果 [5～ 7]。岳世泰等 [8]也报道了用电磁干法制备阳离子淀粉的研究成…     

疏水化淀粉衍生物研究进展

淀粉化学品已广泛应用于各行各业,但由于传统淀粉化学品只有单一的亲水性,应用受到限制。淀粉的疏水化改性是提高淀粉化学品应用性能、赋予淀粉新的性能和功能性、进而拓宽淀粉化学品应用领域的重要方法,淀粉的疏水化改性已成为目前国内外的研究热点。本文综述了近年来制备的新的疏水化淀粉衍生物及其制备新工艺和性能研究方面的进展。     

粤航一号稻米及其亲本抗性淀粉含量的测定与比较

为确定航天品种功能稻米——粤航一号抗性淀粉含量,给临床观察膳食干预后果判断提供实验参考数据,并了解航天育种对该品种大米抗性淀粉含量的影响,用Goni测定方法测定了粤航一号、富硒粤航一号、长丝占、粳籼89 4种稻米的抗性淀粉含量。结果表明,粤航一号、富硒粤航一号、长丝占、粳籼89 4种稻米的抗性淀粉含量分别是(0.30±0.11)%、(0.47±0.37)%、(0.31±0.66)%、(0.36±0.62)%。可见粤航一号与亲本长丝占,及与富硒品种富硒粤航一号,和非航天品种优质大米粳籼89在抗性淀粉含量上无差异,航天育种对该品种稻米抗性淀粉生成遗传特征无影响。     

Research Progress on Hypoglycemic Mechanisms of Resistant Starch: A Review

In recent years, the prevalence of diabetes is on the rise, globally. Resistant starch (RS) has been known as a kind of promising dietary fiber for the prevention or treatment of diabetes. Therefore, it has become a hot topic to explore the hypoglycemic mechanisms of RS. In this review, the mechanisms have been summarized, according to the relevant studies in the recent 15 years. In general, the blood glucose could be regulated by RS by regulating the intestinal microbiota disorder, resisting digestion, reducing inflammation, regulating the hypoglycemic related enzymes and some other mechanisms. Although the exact mechanisms of the beneficial effects of RS have not been fully verified, it is indicated that RS can be used as a daily dietary intervention to reduce the risk of diabetes in different ways. In addition, further research on hypoglycemic mechanisms of RS impacted by the RS categories, the different experimental animals and various dietary habits of human subjects, have also been discussed in this review.     

化学改性淀粉的研究进展

综述了化学改性淀粉的研制及应用现状,评价了各种改性淀粉的应用性能并预测了其今后的发展趋势.     

Resistant Starch Contents of Starch Isolated from Black Longan Seeds

A large quantity of longan fruits (Dimocarpus longan Lour.) produced annually are processed into many products, one of which is black longan, from which the dried, dark-brown meat has been used medicinally in traditional medicine, while the starch-containing seeds are discarded. In this study, starch samples (BLGSs) were isolated from seeds of black longan fruits prepared using varied conditions. The in vitro digestibility was determined in comparison with those extracted from fresh (FLGS) and dried (DLGS) seeds. Scanning electron microscopy (SEM), X-ray diffraction (XRD), differential scanning calorimetry (DSC), and Fourier transform infrared (FTIR) spectroscopy were employed to evaluate the starch properties. The results showed that the yields of FLGS, DLGS, and BLGSs were 20%, 23%, and 16–22% w/w, respectively. SEM images showed starch granules of mixed shapes, with sizes up to 15 µm in all samples. XRD patterns confirmed an A-type crystallinity for FLGS and DLGS, with strong refraction peaks at 2θ = 15°, 17°, 18°, and 23°, while BLGSs also showed detectable peaks at 2θ = 10° and 21°, which suggested V-type structures. Thermal properties corroborated the changes by showing increases in peak gelatinization temperature (T_p) and enthalpy energy (ΔH) in BLGSs. The paste viscosity of BLGSs (5% w/w) decreased by 20–58% from that of FLGS. The FTIR peak ratio at 1045/1022 and 1022/995 cm⁻¹ also indicated an increase in ordered structure in BLGSs compared to FLGS. The significant increase in the amounts of slowly digestible starch (SDS) and resistant starch (RS) in BLGSs compared to FLGS, especially at a prolonged incubation time of 20 (4.2×) and 30 days (4.1×), was proposed to be due to the heat-induced formation of starch inclusion with other components inside the seed during the black longan production process. Thus, black longan seed could be a new source of starch, with increased RS content, for potential use in the food and related industries.     

耐高温邻苯二甲腈树脂研究进展

邻苯二甲腈树脂是以邻苯二甲腈结构封端的高性能耐高温热固性树脂,具有优异的热氧稳定性、阻燃性、力学强度、低吸水率、低热膨胀系数和介电常数,可用于制备先进复合基体材料、涂料、粘接剂等,在航空技术、电子、机械、军事等领域得到广泛应用.本文综述了邻苯二甲腈树脂结构、邻苯二甲腈单体类型、邻苯二甲腈的固化剂、自催化邻苯二甲腈、生物...     

糖精钠清洁生产工艺研究

对糖精钠生产工艺进行了全方位改进,并将其用于生产.结果表明,新工艺实现了资源和能源的综合利用及循环使用,以及废水的达标排放;其废弃物和末端治理费用减少,清洁生产水平明显提高,经济效益、社会效益和环境效益显著,达到了"节能、降耗、减污、增效"的目的.     

Effect of Resistant Starch on Hydrolysis and Fermentation of Corn Starch for Ethanol

Starch samples with 0% or 30% amylose were subjected to four different liquefaction enzyme treatments (at various temperature and pH conditions) followed by simultaneous saccharification and fermentation (SSF). Resistant starch (RS) measurements were conducted for the initial starch sample, after liquefaction and after SSF. Initial RS was higher for 30% amylose starch samples (16.53 g/100 g sample) compared with 0% amylose (0.76 g/100 g sample). Higher initial RS resulted in lower conversion of starch into sugars and lower final ethanol yields. The four enzymes hydrolyzed RS, but in varying amounts. Higher temperature liquefaction hydrolyzed a larger portion of RS, resulting in higher ethanol concentrations and lower final residual solids (non-fermentables), whereas lower temperature liquefaction hydrolyzed a smaller portion of RS and resulted in lower ethanol concentrations and higher final residual solids. Decreases in resistant starch after high temperature liquefaction were 55% to 74%, whereas low temperature liquefaction decreases were 11% to 43%. For all enzyme treatments, RS content of starch samples decreased further after SSF.     

生物质气化技术的研究进展

生物质能是一种可再生能源,它来源于生物体(如植物、动物、微生物等)通过光合作用将太阳能转化为化学能,并以有机物的形式储存。生物质能可以在适当的条件下被转化为热能、电能、生物燃料等,是一种重要的替代传统化石能源的可持续能源。生物质气化作为生物质的开发路径之一,是利用生物质生产合成气的有效方式。本文综述了生物质气化技术的研究,包括传统气化技术、共气化技术、化学链气化技术以及超临界气化技术等。介绍了每个气化技术的实验研究,阐述了各个气化技术的特点;详细介绍了化学链气化中载氧体与共气化中掺杂剂的使用。本文旨在探索使生物质气化效率达到最优的方案,并列举了目前存在的局限性,为进一步发展生物质气化技术以及生物质气化研究提供有益参考。     

宇宙射线缪子成像技术在中国的研究进展

宇宙射线缪子成像是一种新型的绿色核成像技术,近年来发展迅速。该技术利用天然的缪子射线对物体实现无损、高精度的三维成像。国内多所高校和研究机构已开展了一些缪子成像技术的相关研究,包括系统研发、场景应用和少量的成像算法研究。本文针对两种不同原理的缪子成像在国内的研究进行了综述,通过一些典型案例的介绍,展现该技术在经济、文化和社会方面的巨大价值和潜力。我国幅员辽阔、工业体系完善,缪子成像技术在多个领域具有广泛的应用需求。随着相关研究的深入推进,该技术在未来将取得持续发展并得到广泛应用,在文物保护与挖掘、矿藏勘探、基础设施结构监测、泥石流自然灾害预警等产业端发挥重要作用。     

超临界流体技术研究进展

本文综述了超临界流体技术在萃取、材料制备、化学反应及相转移催化等方面的应用, 介绍了有代表性的超临界萃取和反应装置。对今后工作提出了一些建议。