环氧乙烷亲核开环的区域选择性规则在有机化学教学中的应用

环氧乙烷亲核开环的区域选择性规则是有机化学中典型脂肪三元杂环亲核性开环的选择性规则,具有普遍性。本文以非对称环氧乙烷的亲核性开环为核心,从开环反应过渡态稳定性的角度讨论了决定环氧乙烷亲核开环区域选择性的原因。介绍了该区域选择性规则在经过三元杂环正离子中间体的非对称烯烃亲电加成反应区域选择性教学中的应用。加强学生对不同反应的机理和选择性的联系,起到教学中融会贯通的作用,可以提高教学效率和效果。     

松香胺类衍生物在非表面活性剂方面的应用研究

综述了近年来国内外松香胺类衍生物在非表面活性剂方面的应用研究进展,主要包括催化特定氧化反应、手性反应及手性拆分、Maillard反应、抗菌活性、离子识别、施胶、废水处理、缓释、缓蚀、助焊剂等方面。     

石墨烯非共价功能化及其应用

石墨烯的湿法化学修饰,主要包括共价及非共价两种,是目前广泛采用的宏量功能化策略,亦是有效避免其团聚而充分发挥其优异纳米性能的重要修饰方法。非共价功能化因可同时保持原有及引入物质的物化性质,并可充分发挥协同作用,近年来已受到比共价修饰更多的研究关注,并已在生物科学与技术、可持续能源储存及转化、医疗和复合材料等诸多领域得到了广泛应用。本文综述了以应用为导向的石墨烯非共价功能化的构建策略,期望文中涉及的湿法组装策略能为进一步构建性能提升的新材料提供参考。     

地震CT勘探原理及其在公路隧道病害诊断中的应用

地震CT勘探是一种新的地球物理方法。具有分辨率高、可靠性强、信息量大、图象直观的特点。可以广泛地用于线路、场地、隧道、边坡等项目的工程地质勘查和病害诊断。在元磨高速公路芭蕉箐隧道的地质病害诊断中应用地震CT进行勘探,取得了良好的效果。     

RBF神经网络在"薄管板"结构强度分析中的应用

叙述了RBF神经网络的结构和“薄管板”结构强度分析过程以及应用RBF神经网络对“薄管板”结构应力的非线性系统进行了系统辩识 ,网络输出值与计算值符合较好。说明基于神经网络的系统辩识方法在结构强度分析过程中具有一定的实用性。     

Structural modification of BODIPY: Improve its applicability

BODIPY has been considered a potential scaffold because of their neutral total charge, sharp absorption,and emission with high fluorescence quantum yield. However, the drawback of emission wavelength at less than 600 nm and hydrophobicity limit its application. One of the extremely interesting properties of BODIPY is that small modifications to their structures could be able to tune their properties, mainly including the absorption/emission wavelength and the hydrophilicity. This review focuses on the modification at different positions of BODIPY to improve the water-solubility and emission wavelength that describe their spectral, photophysical properties and applicability, which is helpful for the researchers to rationally design BODIPY dyes to adapt a wide range of applications.     

"地小氢"和"月小氢"

Hydrogen is the most abundant chemical element in the Universe and is tightly related to human life. This article personifies hydrogen, bringing a close interaction between the hydrogen on the moon and the hydrogen on the Earth. Through lively and interesting dialogues, the history of hydrogen discovery and the properties are introduced, and the application of hydrogen in different aspects of the future is prospected.     

Recent progress in nanomaterial-enhanced fluorescence polarization/anisotropy sensors

As a promising signaling transduction approach, fluorescence polarization (FP)/fluorescence anisotropy (FA), provides a powerful quantitative tool for the rotational motion of fluorescently labeled molecules in chemical or biological homogeneous systems. Unlike fluorescence intensity, FP/FA is almost independent the concentration or quantum of fluorophores, but they are highly dependent on the size or molecular weight of the molecules or materials attached to fluorophores. Recently, significant progress in FP/FA was made, due to the introduction of some nanomaterials as FP/FA enhancers. The detection sensitivity is thus greatly improved by using nanomaterials as FP/FA enhancers, and nanomaterial-based FP/FA is currently used successfully in immunoassay, and analysis of protein, nucleic acid, small molecule and metal ion. Nanomaterial-based FP/FA provides a new kind of strategy to design fluorescent sensors and establishes innovative analytical methods. In this review, we summarize the scientific publications in the field of FP/FA sensor in recent five years, and first introduce the recent progress of FP/FA sensor based on nanomaterial. Subsequently, the various analytical applications of FP/FA based on nanomaterial are discussed. Finally, we provide perspectives on the current challenges and future prospects in this promising field.     

磷小姐升职记

将磷元素拟人化,通过生动的语言,讲述了她在生命体内的作用以及在人类生活中的应用,让磷元素的生理功能以及应用更简单易懂,使读者体会到磷元素独特的美。     

New developments of advanced high-strength steels for automotive applications

Automotive industry asks for higher resistant steels to lighten parts and improve crash resistance. Keeping a good ductility while increasing tensile strength requires the development of new grades in which hardening mechanisms counteract the drop in elongation when enhancing mechanical resistance. This is mainly achieved with multiphase steels and completing dislocation hardening by twinning and martensite transformation during straining. This has led to high-strength steel families, some of them being already used in body in white (Dual Phase (DP) and TRIP steels). Others, still in development, will soon emerge on the market (Quenched and Partitioned (Q&P), medium-Mn steels or TWIP).