基于"虚实结合"的医用有机化学实验混合教学模式的应用与探索

针对现有医用有机化学实验课程教学内容单一、教学模式传统、实验学时不足、学生重视程度不够等问题,构建了基于"虚实结合"的医用有机化学实验混合教学模式,主要包括教学方法变更、教学内容丰富、虚拟仿真实验引入、课程考核体系完善.实践发现,混合教学模式的应用更好地培养了学生自主创新的实践能力,为实践课程教育改革提供了有效依据,同时,让实践教学以时时、处处、人人皆可学的"新形态"展现在学生面前.     

基于建构主义理论的有机化学实验混合式教学设计与实践*

基于建构主义理论和支架式教学思想,以“北京大学有机化学实验在线学习与测试平台”为依托,探索了混合教学模式在有机化学实验课程中的应用。以薄层色谱和柱色谱实验为例,通过确立目标、分析学情、分解任务、搭建支架、教学实施、评估反馈的教学设计和实践,帮助学生掌握实验知识与技术,培养学生解决实际问题的能力,增强其实验信心。     

农林大学“有机化学实验”课程教学的探索和实践

对农林大学“有机化学实验”课程教学的模式进行了探索.采用了第一课堂教学平台加第二课堂教学平台的教学模式.充分有效利用第一课堂平台的同时也积极拓展第二课堂的教学功能,既解决学时不足,又达到了教学目的.本课程教学模式的改革与实践给学生提供了个性发展的空间,满足了不同层次不同专业学生的需求,使学生建立了初步的科学研究的基本方法和思想.进一步激发了学生自主的、积极的思考意识,教学实践表明,新的有机化学实验体系的形成,综合性、设计性和开放性实验的开设,使有机化学实验课程更适合高素质人才培养的需要.     

大学有机化学实验课程中的思政案例设计

为充分挖掘有机化学实验课程中的思政元素,发挥专业课程在立德树人方面的重要作用,我们对部分有机化学教学实验的教学理念和教学内容进行了改革和探索。构建了以有机化学实验知识为主体,以中华传统文化、有机化学中的励志故事、日常生活中的有机化学等人文素材为主导的有机化学实验课程的思政教学体系,本文主要对课程思政的设计理念和具体案例进行了介绍。     

高职有机化学课程混合教学模式的构建与实践

针对当前高职院校基础课程教学面临的难题,以及有机化学课程的特点,以精品课程为依托,研究构建了有机化学课程的混合教学模式,采用在线学习和课堂教学相结合的方式实施翻转课堂教学,使课堂教学模式由"以教为主"转变为"以学为主",同时根据高职院校学生的特点,采用问题式学习任务单的方式和组长负责制的分组学习模式,以保证教学质量,旨在推动高职院校专业基础课程教育理念和教学模式的改革。     

创新有机化学实验双语教学模式的探索与实践*

基于实践教学经验,从引导预习、优化课堂组织形式、撰写实验报告、改进考核方式等环节入手,开展了创新有机化学实验双语教学模式的探索与实践。创新教学模式可以充分调动学生学习的主动性和积极性,充分发挥任课教师的主导作用,培养了学生扎实的实验技能,提高了学生专业英语水平,增强了学生的创新意识和创新能力,有效地提升了有机化学实验课程的教学质量。     

有机化学双语教学模式改革与探索

给出了适用于本科应用化学及材料化学专业的有机化学双语课程的教学模式和方法。初步解决了目前双语教学语言与专业互不兼顾的问题以及大学英语课程与双语有机化学课程衔接较少的问题。     

临床医学专业的有机化学教学

结合教学一线老教师的教学经验,从培养和提高学生对有机化学课程的兴趣以及该课程教学模式的改进这两个方面总结临床医学专业有机化学的教学经验和体会。     

有机化学课程教学网站的建设与应用开发

简述了有机化学课程教学网站的设计、开发和建设过程,综述了有机化学课程教学网站在有机化学教学中的重要辅助作用及其在教学中的使用方法。     

"PBL"模式下有机化学实验的教与学

结合化学实践教学特点,分析有机化学实验教学中存在的问题,讨论如何将"PBL"教学模式应用到"有机化学实验"教学中,形成"学生为主,教师为辅"的新型教学模式;同时探索思政教育融入有机化学实验课程的实践途径,提出在实践教学过程中,通过典型案例融入思政元素的具体方法,以"立德树人"为理念形成融会贯通、持续创新的新工科教育体系,加强学生的思想教育建设,系统推进大学组织模式、学科专业结构、人才培养机制和教师评价机制等方面的综合改革,构建一流卓越人才培养体系。     

Environmentally Friendly Techniques and Their Comparison in the Extraction of Natural Antioxidants from Green Tea,Rosemary, Clove,and Oregano

Many current food and health trends demand the use of more ecological, sustainable, and environmentally friendly techniques for the extraction of bioactive compounds, including antioxidants. However, extraction yields and final antioxidant activities vary between sources and are highly influenced by the given extraction method and nature and ratio of the employed solvent, especially for total polyphenols, flavonoids, and anthocyanins, which are well recognized as natural antioxidants with food applications. This review focused on the most common extraction techniques and potential antioxidant activity in the food industry for various natural antioxidant sources, such as green tea, rosemary, clove, and oregano. Green extraction techniques have been proven to be far more efficient, environmentally friendly, and economical. In general, these techniques include the use of microwaves, ultrasound, high hydrostatic pressure, pulsed electric fields, enzymes, and deep eutectic solvents, among others. These extraction methods are described here, including their advantages, disadvantages, and applications.     

Synthesis,structure, and function of internally functionalized dendrimers

The past three decades have witnessed an exponential increase in the structural diversity and applications of dendrimers, spanning across drug delivery and diagnostics, protein, and enzyme mimicry, solubility enhancement, coatings, light harvesting, and catalysis. The dendrimer community has recently focused on internally functionalized dendrimers (IFDs) owing to their advanced design and functionality. The synthesis of IFDs relies on advanced orthogonal chemistries and/or (de)protection schemes, as well as careful purification to minimize polydispersity of composition and molecular weight. The studies published on IFDs, however, lay scattered across the chemical literature, and a comprehensive presentation of structural rationale, synthetic procedures, and technologically relevant applications is missing. To address this need, this review presents a comprehensive collection and discussion of all available studies on IFDs, detailing their methods of synthesis and their structure–function correlations. The wide variety of internal functionalities, including hydroxyl, amine, carboxylic acid, allyl, alkyne, and imidazole groups, enables myriad applications in biochemistry, chemical and biomedical engineering, and material science. Particular focus is given to IFDs that are amenable to modular synthetic strategies, which promote higher synthetic yield and scalability, and therefore possess stronger translational and commercial potential. As such, this review guides research groups pursuing the difficult task of IFD rational design and synthesis providing them a concise roadmap to their mission.     

Recent development in nanomaterials fabricated paper-based colorimetric and fluorescent sensors: A review

The paper-based sensing devices have drawn a broad interest in analytical chemistry for colorimetric and fluorescent-based analysis of biological, environmental, clinical, and food samples. It is due to the simple, rapid, biodegradable, user-friendly, less expensive, and low waste generation into the environment. Here, the recent development of paper-based sensors fabricated with different noble metal nanoparticles (NPs) and semiconductor and carbon quantum dots (QDs) is demonstrated to analyze several chemical substances from various samples. User-friendly and portable recording devices such as digital cameras, smartphones, scanners, etc. along with color detecting softwares are employed to measure the color intensity of nanomaterials fabricated paper devices after the deposition of a sample solution containing various chemical substances. The advantages and disadvantages of incorporating nanomaterials in the paper substrate (direct deposition, inkjet printing, screen printing and wax printing) are illustrated. The mechanism for colorimetric, fluorescence, phosphorescence, and chemiluminescence sensing using noble metal NPs (Ag, Cu, and Au), semiconductors, and carbon QDs for the determination of metal ions, anions, pesticides, biomolecules, and other toxic chemical substances are discussed. Thus, this review article would be highly useful for scientists and researchers to design colorimetric sensors to monitor chemical toxicants in clinical, environment, foods, and many other related samples.     

生物光化学

生物光化学研究光在动植物体内所引起的生化现象。例如:经过各种不同波长的光辐照后的生命现象,生长规律,某些生理和病理过程,疾病的产生和治疗机理,细胞的辐射损伤和自然防御,以及光合色素在生物进化中的作用等。本文就光引起的现象:视觉、生物钟(光周期性)、植物的光合作用、辐射损伤及其修复、牛皮癣的治疗、新生儿黄疸病的治疗机理,以及光合色素——藻胆蛋白等七种现象,做了综述性的介绍。     

三唑类药物研究新进展

三唑类化合物作为药物广泛应用于临床,是目前药物研究开发的重点领域之一．越来越多的高活性、低毒性、不良反应少、多药耐药性小、生物利用率高、药代动力学性质好、药物靶向性强、给药方式多样化、广谱、高疗效的三唑类化合物作为候选药物或药物用于临床医治多种疾病,显示出了三唑类化合物在医药领域的巨大开发价值和潜在的宽广应用．本文结合自己的工作,参考国内外近五年文献系统地综述了三唑类化合物作为药物在整个医药领域的研究与开发近况,包括抗真菌、抗细菌、抗结核、抗癌、抗病毒、抗炎镇痛、抗惊厥等,并展望其发展趋势与前景．希望该评论有助于为高活性低毒性三唑类医药合理设计提供新思路．     

THE EFFECT OF CLAY DISPERSION ON THE CRYSTALLIZATION AND MORPHOLOGY OF POLYPROPYLENE／CLAY COMPOSITES

PP/clay composites with different dispersions, namely, exfoliated dispersion, intercalated dispersion and agglomerates and particle-like dispersion, were prepared by direct melt intercalation or compounding. The effect of clay dispersion on the crystallization and morphology of PP was investigated via PLM, SAXS and DSC. Experimental results show that exfoliated clay layers are much more efficient than intercalated clay and agglomerates of clay in serving as nucleation agent due to the nano-scale dispersion of clay, resulting in a dramatic decrease in crystal size (lamellar thickness and spherulites) and an increase of crystallization temperature and crystallization rate. On the other hand, a decrease of melting temperature and crystallinity was also observed in PP/clay composites with exfoliated dispersion, due to the strong interaction between PP and clay. Compared with exfoliated clay layers, the intercalated clay layers have a less important effect on the crystallization and crystal morphology. No effect is seen for samples with agglomerates and particle-like dispersion, in regard to melting temperature, crystallization temperature, crystal thickness and crystallinity.     

Purification and properties of three cellobiases from Aspergillus niger A20

Three cellobiases, here called cellobiase A, B, and C, from the culture filtrate of Aspergillus niger A20, were purified by precipitation with ammonium sulphate, gel filtration through Sephadex G-75, and column chromatography of DEAE-cellulose. The purified enzymes were homogeneous on polyacrylamide disk electrophoresis. The mol wt of the purified enzymes were estimated by SDS-gelelectrophoresis to be 88,000, 80,000, and 71,000 for cellobiases A, B, and C, respectively. The enzymes were active at pH 4.5 and 55–60°C. The pattern of their aminoacid compositions showed high contents of aspartic acid, glutamic acid, threonine, serine, and glycine. The apparent K_m values for cellobiose were 0.9, 1.63, and 1.0 mM for cellobiases A, B, and C, respectively. Calcium ions stimulated cellobiases B and C, and Co²⁺ and Mg²⁺ ions stimulated cell obiase A. The purified enzymes hydrolyzed cellobiose and aryl-β-d-glucosides, but they had no action on sucrose, maltose, and cellulose. The three cellobiases catalyzed transglycosylate reaction, and the major product formed from cellobiose was tetramer of glucose.     

石墨烯纤维：制备、性能与应用

石墨烯纤维是一种由石墨烯片层紧密有序排列而成的一维宏观组装材料。通过合理的结构设计和可控制备,石墨烯纤维能够将石墨烯在微观尺度的优异性能有效传递至宏观尺度,展现出优异的力学、电学、热学等性能,从而应用于功能织物、传感、能源等领域。目前,石墨烯纤维主要通过湿法纺丝、限域水热组装等方法制备得到,其性能可以通过对材料体系和制备工艺的优化而进一步提升。本文首先介绍了石墨烯纤维的制备方法,然后详细阐述了石墨烯纤维的性能,讨论了其性能提升策略,并总结了石墨烯纤维的应用,最后对石墨烯纤维的未来发展、挑战和前景进行了展望。     

Tautomeric and conformational isomerism of natural hydroxyanthraquinones

Natural 1,5-di-, 1,4,5-tri-, and 1,4,5,8-tetrahydroxyanthraquinones and their anions and metal complexes were shown to be equilibrium mixtures of tautomers and conformers using quantum-chemical and correlation analysis of elecronic absorption spectra. Solvent effects, ionization, complexation, and the introduction and substitution of substituents were accompanied by shifts of tautomeric and conformational equilibria that determine the color of the compounds. __________ Translated from Khimiya Prirodnykh Soedinenii, No. 3, pp. 224–229, May–June, 2006.     

宝日希勒褐煤在合成气与复合溶剂系统下的液化性能研究

在合成气（CO+H₂）与复合溶剂（水+有机溶剂）液化系统下研究了气氛、温度、催化剂类型对宝日希勒褐煤转化率、油气水产率和CO转化率等液化特征的影响,从而探讨其液化性能。结果表明,在高含水复合溶剂系统中,合成气气氛、反应温度430-450℃适宜宝日希勒褐煤液化转化,转化率可达到81.15%,油气水产率达到71.53%。该液化系统下,含铁、碱和硫复合型催化剂能有效地提高液化转化率和油气水产率,在430℃催化液化下褐煤转化率达92.27%,油气水产率达79.39%。该催化剂有效促进了煤中大分子的裂解和系统中水煤气变换反应进程,沥青质减少,油含量增多。液化油中多环芳烃衍生物在催化液化过程中向单环芳烃衍生物和烷烯烃转化,分子量降低,提高了油品质量。