一种新型二胺类空穴传输材料和NPB的合成及表征

以N-苯基-1-萘胺和对溴碘苯为起始原料,经Buchwald-Hartwing偶联反应合成有机发光二极管空穴传输材料N,N′-二[4-(1-萘基苯基氨基)苯基]-N,N′-二苯基-[1,1′-联苯]-4,4′-二胺(2)。以1-溴化萘(1-溴萘)为初始原料与N,N′-二苯基联苯二胺经Buchwald-Hartwing偶联合成了N,N′-[二(1-萘基)-N,N′-二苯基]-1,1′-联苯基)-4,4′-二胺(NPB)。利用~1HNMR、LC-MS等对产品结构进行表征。通过差示扫描量热仪(DSC)测得化合物2和NPB失重5%的温度分别为510℃和491℃,化合物2的玻璃化转变温度Tg为126℃,化合物2和NPB的升华温度分别为395℃和290℃,并通过UV-Vis紫外吸收光谱、荧光光谱研究了两种传输材料的光学性质。     

2,2′-二羟基-1,1′-联萘合成方法综述

综述了 2 ,2′ 二羟基 1,1′ 联萘 (联萘酚 )的合成方法 ,包括外消旋体的合成以及手性合成。参考文献 5 1篇     

重氮化法(用胺盐形式)制备偶氮萘

2,2′—偶氮萘为一种重要的抗氧剂和光敏剂,并且经还原、重排得2,2′—二氨基1,1′—联萘,该化合物是研究立体活性染料及轴不对称合成的重要试剂。如以β—萘胺为原料,经重氮化、Na_2SO_3还原得偶氮萘。但由于β—萘胺在盐酸—硫酸体系中的水溶性甚差,按文献报导方法仅得10％产率。我们改用胺盐形式     

1,8-萘酐类水溶性荧光染料的合成

通过在1,8 萘酐4 位的烷基链上形成季铵盐亲水基团,合成了两个以1,8 萘酐为母体的水溶性荧光染料。以4 Br 1,8 萘酐为原料,经胺化、酰胺化、季铵盐化3步反应,合成了季铵盐型4 (N′,N′ 二甲基 1 哌嗪基) N 烷基 1,8 萘酰亚胺,总收率达到70 2%以上。目标化合物在水溶液中的量子收率达到0 6以上。     

水溶性萘酰亚胺氢离子荧光分子探针的合成及性能

4 溴 1,8 萘酐与羟乙氧基乙胺反应合成了中间体N 羟乙氧基乙基 4 溴 1,8 萘酰亚胺。用该中间体分别与哌嗪、甲基哌嗪和羟乙基哌嗪反应 ,合成了 4 哌嗪基、4 (甲基哌嗪 )基和 4 (羟乙基哌嗪 )基 1,8 萘酰亚胺衍生物 (NP - 1、NP - 2和NP - 3)。这 3种化合物具有较好的水溶性 ,其水溶液的荧光强度随溶液由碱性到酸性变化 ,荧光强度增加在 5 0倍以上。NP - 1、NP - 2和NP - 3的pK′a值分别为 8 5、7 6和 6 7。     

萘-1,4-二腈合成新工艺

本文介绍了一种合成萘-1,4-二腈的新路线,该路线按生产要求对工艺条件进行了优化。邻二氯苄经过腈化与N,N′-二异丙基-二亚氨基乙烷缩合制备萘-1,4-二腈,总收率73%,纯度99.5%。标题化合物结构经过鉴定得到确认。     

1,1′-联萘类荧光染料的合成及性能研究

本文介绍了两支1,1′-联萘类荧光染料的合成方法,通过核磁和质谱等表征了染料化合物的结构,并测试了其在固体和溶液中的紫外吸收、荧光发射、荧光寿命以及荧光量子产率等性能。     

5′位氨基修饰的核苷化合物的合成

以5-甲基尿苷为原料通过四步反应合成了5′位氨基修饰的核苷化合物,首先2′-OH和3′-OH进行保护得到2,′3′-位异丙叉基保护中间体,对5′位羟基进行Ts化后引入叠氮基,加入三苯基膦通过Staud inger反应形成氮磷双键后加水还原得到5′位氨基修饰的核苷化合物。     

N-(甲基取代苯基)-N′-(2-羟基-3-萘甲酰基)脲的合成研究

以2-羟基-3-萘甲酸和二氯亚砜为原料合成2-羟基-3-萘甲酰氯,再与甲基取代的苯脲化合物反应得到N-(甲基取代苯基)-N′-(2-羟基-3-萘甲酰基)脲。重点研究了N-(3-甲基苯基)-N-(′2-羟基-3-萘甲酰基)脲的合成工艺条件对产品收率的影响,确定了最佳合成工艺,即以苯为溶剂、三乙胺为缚酸剂,n(间甲基苯脲)∶n(2-羟基-3-萘甲酰氯)∶n(苯)=1∶3∶33,回流温度下反应4 h,产品质量分数97.40%,收率71.5%。在相同条件下合成了N-(2-甲基苯基)-N′-(2-羟基-3-萘甲酰基)脲、N-(4-甲基苯基)-N-(′2-羟基-3-萘甲酰基)脲和N-(3,5-二甲基苯基)-N-′(2-羟基-3-萘甲酰基)脲,质量分数分别为95.72%、97.69%和99.44%,收率分别为47.1%、71.5%和59.7%。通过紫外吸收光谱、红外吸收光谱和质谱等对化合物进行了表征,证明产品结构正确。     

一种钯配体化合物的合成

以2-萘胺为原料在氯化铜的作用下经过氧化偶联重排,得到1,1′-联萘-2,2′-二胺,然后依次经过重氮化、溴代和甲基化,得到2′-溴-2-N,N-二甲基-1,1′-联萘胺,收率49.7%。该联萘化合物在正丁基锂作用下,与二叔丁基氯化膦反应,得到最终的目标化合物,收率66.9%。4步反应的总收率33.3%。     

Enzymes-Assisted Extraction of Plants for Sustainable and Functional Applications

The scientific community and industrial companies have discovered significant enzyme applications to plant material. This rise imparts to changing consumers’ demands while searching for ‘clean label’ food products, boosting the immune system, uprising resistance to bacterial and fungal diseases, and climate change challenges. First, enzymes were used for enhancing production yield with mild and not hazardous applications. However, enzyme specificity, activity, plant origin and characteristics, ratio, and extraction conditions differ depending on the goal. As a result, researchers have gained interest in enzymes’ ability to cleave specific bonds of macroelements and release bioactive compounds by enhancing value and creating novel derivatives in plant extracts. The extract is enriched with reducing sugars, phenolic content, and peptides by disrupting lignocellulose and releasing compounds from the cell wall and cytosolic. Nonetheless, depolymerizing carbohydrates and using specific enzymes form and release various saccharides lengths. The latest studies show that oligosaccharides released and formed by enzymes have a high potential to be slowly digestible starches (SDS) and possibly be labeled as prebiotics. Additionally, they excel in new technological, organoleptic, and physicochemical properties. Released novel derivatives and phenolic compounds have a significant role in human and animal health and gut-microbiota interactions, affecting many metabolic pathways. The latest studies have contributed to enzyme-modified extracts and products used for functional, fermented products development and sustainable processes: in particular, nanocellulose, nanocrystals, nanoparticles green synthesis with drug delivery, wound healing, and antimicrobial properties. Even so, enzymes’ incorporation into processes has limitations and is regulated by national and international levels.     

Mechanisms Governing Anaphylaxis: Inflammatory Cells,Mediators, Endothelial Gap Junctions and Beyond

Anaphylaxis is a severe, acute, life-threatening multisystem allergic reaction resulting from the release of a plethora of mediators from mast cells culminating in serious respiratory, cardiovascular and mucocutaneous manifestations that can be fatal. Medications, foods, latex, exercise, hormones (progesterone), and clonal mast cell disorders may be responsible. More recently, novel syndromes such as delayed reactions to red meat and hereditary alpha tryptasemia have been described. Anaphylaxis manifests as sudden onset urticaria, pruritus, flushing, erythema, angioedema (lips, tongue, airways, periphery), myocardial dysfunction (hypovolemia, distributive or mixed shock and arrhythmias), rhinitis, wheezing and stridor. Vomiting, diarrhea, scrotal edema, uterine cramps, vaginal bleeding, urinary incontinence, dizziness, seizures, confusion, and syncope may occur. The traditional (or classical) pathway is mediated via T cells, Th2 cytokines (such as IL-4 and 5), B cell production of IgE and subsequent crosslinking of the high affinity IgE receptor (FcεRI) on mast cells and basophils by IgE-antigen complexes, culminating in mast cell and basophil degranulation. Degranulation results in the release of preformed mediators (histamine, heparin, tryptase, chymase, carboxypeptidase, cathepsin G and tumor necrosis factor alpha (TNF-α), and of de novo synthesized ones such as lipid mediators (cysteinyl leukotrienes), platelet activating factor (PAF), cytokines and growth factors such as vascular endothelial growth factor (VEGF). Of these, histamine, tryptase, cathepsin G, TNF-α, LTC₄, PAF and VEGF can increase vascular permeability. Recent data suggest that mast cell-derived histamine and PAF can activate nitric oxide production from endothelium and set into motion a signaling cascade that leads to dilatation of blood vessels and dysfunction of the endothelial barrier. The latter, characterized by the opening of adherens junctions, leads to increased capillary permeability and fluid extravasation. These changes contribute to airway edema, hypovolemia, and distributive shock, with potentially fatal consequences. In this review, besides mechanisms (endotypes) underlying IgE-mediated anaphylaxis, we also provide a brief overview of IgG-, complement-, contact system-, cytokine- and mast cell-mediated reactions that can result in phenotypes resembling IgE-mediated anaphylaxis. Such classifications can lead the way to precision medicine approaches to the management of this complex disease.     

Effects of Extraction Temperature and Preservation Method on Functionality of Soy Protein

The effects of extraction temperature and preservation method on the functional properties of soy protein isolate (SPI) were determined. Four extraction temperatures (25, 40, 60, and 80 °C) were used to produce SPI and yields of solids and protein contents were determined. Three preservation methods were also tested (spray-drying, freeze-drying, and freezing–thawing) and compared to fresh (undried) samples for each extraction temperature. No differences in yields of solids and protein were observed among SPIs extracted at 25, 40, and 60 °C; however, SPI extracted at 80 °C yielded significantly less solids and protein. Extraction temperature significantly affected SPI functionality. As extraction temperature increased, solubility and emulsification capacity decreased; surface hydrophobicities, emulsification activities and stabilities, and dynamic viscosities increased; and foaming properties improved. Preservation method also significantly affected SPI functionality. Drying method did not affect the denaturation enthalpies of SPIs, but spray-dried SPIs had higher solubilities, surface hydrophobicities, and emulsification stabilities, and lower viscosities, emulsification activities and rates of foaming than freeze-dried SPI exhibited. Emulsification and foaming capacities and foaming stabilities were similar for both methods of drying. There was significant interaction between extraction temperature and preservation method for all functional properties except emulsification capacity.     

松香基表面活性剂研究进展

松香是一类产量丰富、价格低廉的可再生林产资源,被广泛地应用于食品、农业、橡胶、油墨、涂料等领域。松香的三环二萜结构具有超强的疏水性,通过催化异构、Diels-Alder加成等手段引入亲水基团可制备高附加值、易生物降解的绿色表面活性剂。本文从阴离子、阳离子、非离子和两性离子表面活性剂4个大类对松香基表面活性剂应用的文献及专利进行综述,重点分析了羧酸盐、磺酸盐、硫酸盐和磷酸盐4种阴离子型表面活性剂和季铵盐阳离子型表面活性剂,多元醇型和聚氧乙烯型非离子表面活性剂,以及甜菜碱型和氧化胺型两性离子表面活性剂。剖析松香基表面活性剂产业化开发的新技术及新产品概况,提出松香基表面活性剂替代传统表面活性剂的潜在应用领域。同时,对松香基表面活性剂的研究发展与产业化发展进行了评价与展望。     

Recent Progress in Biopolymer-Based Hydrogel Materials for Biomedical Applications

Hydrogels from biopolymers are readily synthesized, can possess various characteristics for different applications, and have been widely used in biomedicine to help with patient treatments and outcomes. Polysaccharides, polypeptides, and nucleic acids can be produced into hydrogels, each for unique purposes depending on their qualities. Examples of polypeptide hydrogels include collagen, gelatin, and elastin, and polysaccharide hydrogels include alginate, cellulose, and glycosaminoglycan. Many different theories have been formulated to research hydrogels, which include Flory-Rehner theory, Rubber Elasticity Theory, and the calculation of porosity and pore size. All these theories take into consideration enthalpy, entropy, and other thermodynamic variables so that the structure and pore sizes of hydrogels can be formulated. Hydrogels can be fabricated in a straightforward process using a homogeneous mixture of different chemicals, depending on the intended purpose of the gel. Different types of hydrogels exist which include pH-sensitive gels, thermogels, electro-sensitive gels, and light-sensitive gels and each has its unique biomedical applications including structural capabilities, regenerative repair, or drug delivery. Major biopolymer-based hydrogels used for cell delivery include encapsulated skeletal muscle cells, osteochondral muscle cells, and stem cells being delivered to desired locations for tissue regeneration. Some examples of hydrogels used for drug and biomolecule delivery include insulin encapsulated hydrogels and hydrogels that encompass cancer drugs for desired controlled release. This review summarizes these newly developed biopolymer-based hydrogel materials that have been mainly made since 2015 and have shown to work and present more avenues for advanced medical applications.     

中低温煤焦油蒸馏过程中金属元素的迁移规律

以中低温煤焦油轻油和重油为实验原料,采用常压蒸馏获得170~200℃、200~240℃、240~270℃、270~300℃、300~320℃、320~340℃、340~360℃和360~390℃煤焦油馏分油;利用配有油品加氧制冷进样系统的ICP-OES测定了21种微量元素在馏分油中的含量,考察了不同馏分油中元素的分布情况。研究表明：在原煤焦油中,未发现Ag、Mg、Mo、Na、Ni、Fe、Mn、Cr及Ti元素,含量较高的元素有Sn、P、Al、Pb、Si,其中Sn元素在轻油和重油中的含量分别为11.78μg/g和14.04μg/g;在所有馏分油中,未发现Al、Mo、Fe、Mn、Cr及Ti元素,含量比较高的元素有Si、Sn、Na、Zn、Pb,特别是Si、Na、Sn、Zn、Ni、Pb及B元素可以有效富集于馏分油中。可能的原因是Ca、Fe、Mg、Al等金属以不同的盐类形态存在,在煤焦油脱水及<170℃蒸馏过程中,这些金属盐类会被部分带出,导致其在馏分油中的含量未富集或未检出;通过关联金属元素在馏分油中的分布与其组成的关系,馏分油中元素的分布可能与酚类化合物、杂环化合物和蒸馏温度等相关。酚类化合物及杂环化合物可能与Ag、B、Cu、Mo、Sn、Na、Zn、Ca、Pb等金属形成络合物或卟啉配合物,蒸馏温度一方面可以破坏Sn、Cd、Pb、Zn、Cu、Ca、Pb等元素在馏分油中的结合力,另一方面也可以促进这些元素与馏分油中的含氧、含氮等化合物更好地发生化合反应,进而影响金属元素在馏分油中的含量分布。     

Organokines in Rheumatoid Arthritis: A Critical Review

Rheumatoid arthritis (RA) is a systemic autoimmune disease that primarily affects the joints. Organokines can produce beneficial or harmful effects in this condition. Among RA patients, organokines have been associated with increased inflammation and cartilage degradation due to augmented cytokines and metalloproteinases production, respectively. This study aimed to perform a review to investigate the role of adipokines, osteokines, myokines, and hepatokines on RA progression. PubMed, Embase, Google Scholar, and Cochrane were searched, and 18 studies were selected, comprising more than 17,000 RA patients. Changes in the pattern of organokines secretion were identified, and these could directly or indirectly contribute to aggravating RA, promoting articular alterations, and predicting the disease activity. In addition, organokines have been implicated in higher radiographic damage, immune dysregulation, and angiogenesis. These can also act as RA potent regulators of cells proliferation, differentiation, and apoptosis, controlling osteoclasts, chondrocytes, and fibroblasts as well as immune cells chemotaxis to RA sites. Although much is already known, much more is still unknown, principally about the roles of organokines in the occurrence of RA extra-articular manifestations.     

Role of Douglas fir (Pseudotsuga menziesii) carbohydrates in resistance to budworm (Choristoneura occidentalis)

The current year's growth of Douglas fir contains galactose, unusual in that this carbohydrate makes up 78.7% of the total carbohydrate fraction. An agar diet study was undertaken to determine the effects of galactose, other carbohydrates, and terpenes on western spruce budworm larval mortality, growth rate, and adult biomas production. All concentrations of the carbohydrates and terpenes tested, as well as other mineral elements not tested, were typical of the current year's foliage of Douglas fir. In experiment I, the diet containing 5.61% total carbohydrate did not significantly affect larval mortality when compared to the control diet. However, diets containing 9.45% and 15% total carbohydrate concentrations significantly increased larval mortality 64% and 96.1%, respectively, when compared to the control. Also in experiment I, terpenes alone (78.9% morality) and terpenes in combination with 9.45% and 15% total carbohydrates significantly increased larval mortality (97.2% and 100%, respectively) when compared to mortality on the control diet (44%). To determine which carbohydrate was causing the adverse effect, 6% glucose, 6% fructose, and 6% galactose were placed individually and in combination with terpenes in diets in experiment II. The 6% galactose diet significantly increased larval mortality and reduced growth rate when compared to the control, glucose, and fructose diets. Glucose resulted in 16% less larval mortality, significantly enhanced female larval growth rate and pupal weight, but did not affect male larval growth rate and pupal weight, when compared to the control. Fructose resulted in a significant decrease in larval mortality and a general trend of enhanced female and male larval growth rate and pupal weight. Larval mortality on terpenes alone was not significantly different from the control, but terpenes with 6% galactose increased larval mortality and decreased female and male growth rate and pupal weight significantly when compared to glucose-terpene and fructose-terpene diets. No significant interactions were found between carbohydrates and terpenes in either experiment.     

Laccases and Tyrosinases in Organic Synthesis

Laccases (Lac) and tyrosinases (TYR) are mild oxidants with a great potential in research and industry. In this work, we review recent advances in their use in organic synthesis. We summarize recent examples of Lac-catalyzed oxidation, homocoupling and heterocoupling, and TYR-catalyzed ortho-hydroxylation of phenols. We highlight the combination of Lac and TYR with other enzymes or chemical catalysts. We also point out the biological and pharmaceutical potential of the products, such as dimers of piceid, lignols, isorhamnetin, rutin, caffeic acid, 4-hydroxychalcones, thiols, hybrid antibiotics, benzimidazoles, benzothiazoles, pyrimidine derivatives, hydroxytyrosols, alkylcatechols, halocatechols, or dihydrocaffeoyl esters, etc. These products include radical scavengers; antibacterial, antiviral, and antitumor compounds; and building blocks for bioactive compounds and drugs. We summarize the available enzyme sources and discuss the scalability of their use in organic synthesis. In conclusion, we assume that the intensive use of laccases and tyrosinases in organic synthesis will yield new bioactive compounds and, in the long-term, reduce the environmental impact of industrial organic chemistry.