In vivo Self-assembled Peptide Nanoprobes for Disease Diagnosis

In vivo imaging is creating great opportunities for disease diagnosis as a research tool. Probes are usually used to observe physiological structures in vivo clearly. Recent progresses of nanoprobes are important for the generation of high resolution and high contrast images required by accurate and precision disease diagnosis. In vivo self-assembled peptide(SAP) nanoprobes are playing major roles in in vivo imaging by modularity of design, high imaging contrast, response to the location of the lesion, and long-time retention in the lesion. And the response to lesion and long-term retention in there can enhance imaging sensitivity and specificity of in vivo SAP nanoprobes. Therefore, in vivo SAP nanoprobes are simple ancillary contrast entities to optimize the imaging effect. In this review, the recent progress of in vivo SAP nanoprobes for in vivo imaging, from molecular design of peptides to biomedical and clinical applications including disease diagnosis and disease-related molecular imaging is systematically summarized. We evaluate their ability, including sensitivity and specificity to provide relevant information under preoperative and during surgery circumstances and critically their likelihood to be clinically translated. Finally, a brief outlook on remaining challenges and potential directions for future research in this area is presented.     

可充电池的磁共振研究

快速增长的对安全能源的需求,促使科研工作者不断探索高能量密度的可充锂离子电池(LIBs)。发展原位表征技术能更好地研究电池工作中的锂离子镶嵌机制和电池失效因素。固体核磁共振(NMR)能有效的测试短程化学环境:通过对~1H、~(6,7)Li、~(11)B、~(13)C、~(17)O、~(19)F、~(23)Na和~(31)P等同位素来探测电池材料的微观结构。除了魔角旋转(MAS)高分辨NMR谱图研究电池材料的精细结构之外,核磁共振还能无损地捕获、研究电池材料在充放电循环中的演化。因此,原位核磁共振NMR及成像(MRI)可拓展到电池充放电循环中的锂离子的动态演化以及锂离子浓度的时空分布信息。互为补充地,电子顺磁共振(EPR)及成像(EPRI)能有效地跟踪和捕获电极过渡金属、阴氧离子(O_2~(n-))的氧化还原过程。这些实时捕获的动态信息能更好地指导电极材料的构效、微观设计和电池组装的改进,最终获得优异的电化学性能。     

硅基纳米探针用于眼部疾病的成像检测与治疗

快速精准的诊断和高效的治疗对于减轻眼部疾病造成的危害至关重要. 在过去的几十年里, 由于具有尺寸小、 比表面积大、 表面易修饰及独特的光/电子/机械性能等优点, 纳米材料已被用于构建不同种类的高性能纳米探针. 其中, 基于其良好的生物相容性, 科学家们已经将硅纳米材料设计为可用于不同眼部疾病诊断与治疗的功能化纳米探针. 本综述主要概述了将硅基纳米探针用于检测和治疗不同眼部疾病(如角膜疾病、 视网膜疾病、 青光眼等)的近期研究进展. 首先, 重点介绍了硅基纳米探针的设计制备及在角膜新生血管、 细菌性角膜炎等角膜疾病的成像检测与治疗中的应用; 然后, 介绍了用于成像检测和治疗视网膜疾病(如色素性视网膜炎和视网膜新生血管)的硅基持续性给药系统的研究成果; 随后, 概述了多功能硅基纳米载药系统的构建及在青光眼治疗领域的应用研究进展; 最后, 简要讨论了将硅基纳米探针用于眼部疾病诊治面临的挑战并对未来的发展前景进行了展望.     

十二烷基硫酸钠对原位晶化制备小晶粒NaY的影响

研究了十二烷基硫酸钠对原位晶化制备小晶粒NaY的影响,并以包含小晶粒NaY的原位晶化产物为母体,通过铵交换和稀土离子交换制备出了REUSY催化剂.采用X射线衍射(XRD)、扫描电镜(SEM)、X射线荧光(XRF)及N₂物理吸附-脱附等手段对样品进行了表征,采用微反活性评价装置和小型固定流化床(ACE)评价了所制备催化剂在重油催化裂化反应中的催化性能.结果表明:在原位晶化合成NaY的体系中,添加高岭土微球质量5%的十二烷基硫酸钠,可以将分子筛的平均晶粒尺寸由540 nm减小到250 nm.相比于常规的原位晶化型流化催化裂化(FCC)催化剂,以包含小晶粒NaY的原位晶化产物为母体所制备出的催化剂,在反应原料的转化率、裂化产物的选择性以及抗积碳性能等方面均有明显的提高或改善.     

Fluorescent Silicon-based Nanomaterials Imaging Technology in Diseases

Fluorescence imaging analysis of microscale dynamic process (e.g., metabolism, mitosis, endocytosis, exocytosis, etc.) is of particular significance to study the related pathogenesis and design the intracellular drug delivery systems. Owing to unique physical, chemical and/or biological properties, silicon(Si)-based nanomaterials have been employed to design and construct diffe-rent types of nanoprobes for the imaging analysis of diseases. Thus, we herein present an overview of recent advances in fluorescent silicon nanomaterials imaging technology for analyzing and diagno-sing diseases. Firstly, we mainly introduce the construction of Si nanomaterials-based bioprobes for long-term fluorescence imaging analysis of cancer-related biological information, such as tumour cells, biomarkers and nanocarriers. Afterwards, we focus on the Si nanomaterials-based imaging technology for monitoring the dynamic process of pathological changes of various ocular diseases (e.g., ocular angiogenesis, bacterial keratitis, etc.). Then, we outline the construction of Si-based nanoprobes and their applications in simultaneously imaging and treating the bacteria-induced diseases caused by broad-spectrum bacteria-related pathogens. Finally, we further discuss the major challenges and prospects for developing silicon-based fluorescence imaging technology.     

细胞内源性分子辅助荧光信号放大策略及细胞成像

细胞内原位信号放大策略是检测低丰度内源性目标物的有效手段, 但多数信号放大策略依赖于外源性辅助物, 不可避免地改变细胞内微环境, 进而对机体造成一定干扰. 针对此问题, 可利用细胞内源性物质(如金属离子、 核酸、 蛋白酶等)实现原位荧光信号放大, 对不同生物标志物进行荧光成像, 此方法对低丰度靶分子检测及成像具有重要意义. 本文对内源性物质辅助信号放大及细胞内荧光成像相关研究进行了归纳整理, 介绍了内源性核酸、 酶、 蛋白质、 三磷酸腺苷(ATP)和金属离子辅助信号放大策略, 并探讨了其信号放大机理; 总结了内源性物质辅助信号放大探针在低丰度物质检测及成像方面的研究进展; 最后展望了该策略在细胞成像方面的优势及应用前景.     

Copper-sulfide cluster assembled architecture via in situ reaction

A new copper-thiolate cluster assembled framework [Cu₂(μ₄-SCH₃)Cl]_n (1), has been solvothermally synthesized through in situ reaction viz., in situ ligand generation and metal reduction. Compound 1 represents the first 3D framework based on Atlas-sphere functionalized by single μ₂-Cl^- groups. DOS calculation reveals the interaction of electronic structures. It is found that the HOMO is mainly distributed on Cl, Cu and S bonding orbitals, while the LUMO is dominated by Cu-Cl antibonding orbitals.     

电解水催化材料动态构效关系的原位拉曼研究进展北大核心CSCD

可再生能源电解水产氢对于实现碳中和目标和未来可持续社会的发展具有重要意义。然而,在电解水服役过程中,催化材料往往会发生复杂的结构演变,这对深入理解电解水催化材料反应机制和精准设计高效催化材料造成了挑战。原位电化学拉曼表征技术对催化材料结构动态演变过程的实时监测,是揭示电解水材料动态构效关系,解析催化反应机理的关键。本文介绍了原位电化学拉曼表征技术的基本原理,重点综述了其在催化材料相结构演变、表面活性位点和界面水分子行为中的最新进展,阐述了电解水催化材料在服役过程中结构演变与性能演变之间的变化规律,为实现催化材料全生命周期动态构效关系的精准构建提供了技术基础。最后,分析总结了原位电化学拉曼表征技术在电解水应用过程中存在的问题与挑战,并对先进原位电化学拉曼技术未来的发展进行了展望。     

基于硼酸酯的19F磁共振分子探针的设计合成及活体深组织活性氧物种的激活响应成像

活性氧簇(ROS), 如过氧化氢, 在生物体内的各种生理和病理过程中发挥着重要作用. 生物体内活性氧簇水平的异常与多种疾病(炎症、 肿瘤和器官损伤等)密切相关, 使ROS监测成为研究和诊断这些疾病的重要工具. 目前, 实现活体内深组织中的活性氧簇成像仍然面临挑战. 本文设计并合成了一种响应型的¹⁹F磁共振成像(MRI)探针(Gd-DPBF), 并将其用于实现对活体内通用活性氧簇的检测和成像. 该探针由钆螯合物通过活性氧簇响应的芳香硼酸酯键与含氟砌块相连接构成. 体外和体内成像实验结果证实, 该探针可以实现在活体荷瘤小鼠中针对肿瘤中高表达的活性氧进行检测和成像, 展示了其在生物体内对活性氧簇相关生理过程进行深组织、 零生物背景成像方面的潜力.     

Voltammetric in situ measurements of trace metals in coastal waters

Developments in instrument miniaturisation and automation have resulted in the manufacture of portable electrochemical instrumentation for continuous trace-metal measurements from the banks of estuaries and on board ships. The most recent developments in flow cells with gel-coated iridium (Ir) micro-electrode arrays have resulted in submersible in situ voltammetric probes that allow long-term trace-metal monitoring at sub-nanomolar concentrations in coastal waters. This article overviews the design and the application of field-deployable voltammetric instrumentation for trace-metal monitoring.     

Effect of pumping methods on transmembrane pressure, fluid balance and relative recovery in microdialysis

There is a growing interest in using large pore size probes for microdialysis of macromolecular markers to monitor cell and tissue functions. Fluid balance could be an important issue when using large pore size microdialysis probes, which are affected by the mode of operation. In this study, the effect of pumping systems, push, pull, push-and-pull, and the resulting transmembrane pressure on the fluid balance, as well as, the relative recovery of small molecular nutrients and metabolites and macromolecules (proteins) were examined. The validity of the internal reference in situ calibration was examined in detail. It is concluded that a push-and-pull system is the only effective method of eliminating fluid loss or gain. The relative recovery of small solutes is not affected much by the applied pumping methods; however, the relative recovery of macromolecules is significantly influenced by them. The in situ calibration technique using Phenol Red can provide reliable results for small molecules including glucose and lactic acid. Using 10 and 70-kDa fluorescent dextrans as the internal standard for large molecules in situ calibration of similar size does not work for the pull pump system, but does work well when using a push-and-pull pumping method.     

Near‐Infrared Multipurpose Lanthanide‐Imaging Nanoprobes

Optical imaging plays a growing role in modern biomedical research and clinical applications due to its high sensitivity, superb spatiotemporal resolution and minimal hazards. Lanthanide‐doped nanoparticles (LDNPs), as a classical category of luminescent materials, exhibit promising photostability, near‐infrared (NIR)‐excited frequency up‐/down‐converting capabilities, emission fine‐tuning and multispectral features, which have greatly promoted the endeavors of deeper and clearer diagnostics in complex living conditions. This review focuses on the recent advances of LDNP‐based multipurpose imaging studies using upconversion, downshifting, lifetime, photoacoustic and multimodal nanoprobes in the NIR (650–1000 nm) and the second near‐infrared window (NIR‐II, 1000–1700 nm). The principle and design of various functional, activatable, multiplexing or multimodal lanthanide‐imaging nanoprobes (LINPs) as well as representative biophotonic applications are summarized in detail. In addition, the future perspectives and challenges for facilitating LINPs to clinical translations are discussed.     

基于透射电子显微镜的沸石分子筛结构研究进展

透射电子显微镜是解析沸石分子筛新结构、 分析结构缺陷和研究活性位点等的有力工具. 应用于分子筛研究的透射电子显微术总体上可以分为图像法和衍射法, 包括透射电子显微镜和扫描透射电子显微图像、 选区电子衍射和三维电子衍射, 通常结合其中的几种方法进行分析. 近年来, 随着电子显微镜硬件性能的不断提升, 特别是球差矫正器的广泛应用及各种适用于分子筛等电子束敏感材料的探测器和图像处理技术的不断革新, 在原子尺度观察分子筛的结构已成为可能. 此外, 利用原位电子显微镜技术研究分子筛的生长和催化反应机理也在逐步展开. 本文按电子显微镜方法分类, 综述了近些年基于电子显微镜的分子筛研究, 包括新结构解析、 手性确认和金属负载等的最新进展.     

Pretilt angle generation by UV exposure during imidization of polyimide

We investigated pretilt angle generation and liquid crystal (LC) alignment by ultraviolet exposure during the imidization of polyimide (PI). The generated pretilt angle of a nematic (N) LC using an in situ photo-alignment method is smaller than that using a conventional photo-alignment method on a surface of PI having side chains. The NLC pretilt angles using an in situ photo-alignment method injected at isotropic phase increased with annealing were observed.     

整合荧光成像和化疗的有机小分子诊疗探针的研究进展

将诊断与治疗功能结合为一体是当前应对癌症的一种新兴策略. 诊疗一体化作为一种潜在的新型医学诊治方式, 在快速获得体内信息、 改善生物分布、 减少剂量和降低毒副作用等方面具有潜在的应用前景. 荧光成像被广泛应用于医学诊断, 近年来近红外荧光成像技术得到飞速发展, 在活体成像方面具有较好的穿透深度和成像分辨率. 本文综合评述了部分整合荧光成像和化疗的有机单分子诊疗试剂的相关研究, 并对诊疗一体化探针的未来研究进行了展望.     

高温红外光谱电化学薄层池的制作与表征

为了拓宽光谱电化学研究范围,开展高温下电化学反应过程,本文研制了一种高温红外光谱电化学薄层池(HTC)。 研制的HTC清洗方便,操作简单,适用于水体系和有机体系。 该HTC可在室温至373 K(根据溶剂沸点,控温精度为±0.5 K)温度范围内使用,具有良好的电化学性能,红外光谱采集谱图清晰信噪比好。 利用铁氰化钾水溶液和对苯醌离子液体溶液的红外光谱电化学行为对HTC进行了表征,得到较满意的结果。     

肽基超分子胶体

肽基超分子胶体是基于肽分子间超分子作用,自发形成且具有有序分子排布及规整结构,兼具传统胶体及超分子特性的组装体系。利用超分子弱相互作用构筑功能性胶体,不仅是人们对生命组装进程深入理解的有效手段,也是实现优异的超分子材料的重要途径。肽分子具有组成明确、性能可调、生物安全性高及可降解等优势,是超分子化学、胶体与界面化学领域重要的组装基元。基于肽的超分子自组装,能够实现多尺度、多功能的生物胶体的构筑,被广泛应用于医药、催化、能源等领域。如何通过对肽序列的设计及分子间作用力的调控,实现对胶体结构和功能的精确控制,是近年来研究的重要课题之一。从分子尺度研究和揭示超分子胶体的组装过程及物理化学机制,探究胶体结构与功能的关系,是实现超分子结构和功能化的重要内容。本文基于"分子间作用的调控"及"结构与功能的关系"两个基本科学问题,系统地综述了肽基超分子胶体的组装机制、结构与功能,以及研究现状。     

Flame retardant polyamide 6 by in situ polymerization of ε-caprolactam in the presence of melamine derivatives

An improved method for preparing melamine cyanurate （MCA） based flame retardant polyamide 6 （FRPA6） materials has been proposed. This processing method, i.e., improved in situ polymerization, was used to synthesize flame retardant PA6. In situ formed MCA nanoparticles were supposed to be linked to PA6 chains in the ε-caprolactam hydrolytic polymerization system to obtain startype polymers for the first time. Through TEM photographs, it can be found that the in situ formed MCA nanoparticles with diametric size of less than 50 nm, are nanoscaled, highly uniformly dispersed in the PA6 matrix. Synthesized flame retardant PA6 have good fire performance which can achieve UL-94 V-0 rating at 1.6 mm thickness with the presence of 7.34 wt.% MCA in the matrix.     

One Step Fabrication and Application of Antibacterial Electrospun Zein/Cinnamon Oil Membrane Wound Dressing via In situ Electrospinning Process

Antibacterial wound dressing can benefit the wound healing by preventing bacterial infection, especially for the electrospun ones due to their porous structures and easily loading antibacterial drugs. However, it is challenging to apply the antibacterial electrospun wound dressing to covering the wound conveniently and safely. Here, we presented one step fabrication and application of antibacterial electrospun zein/cinnamon oil wound dressing via a handheld electrospinning setup. The prepared zein/cinnamon oil wound dressing showed gas permeability of (76.1±5.45) mm/s, hydrophilicity with zero body fluid contact angle, swelling stability after 24 h as well as antibacterial zones over 5 cm against both E. coli and S. aureus bacteria. Moreover, in situ electrospinning process can deposit the electrospun zein/cinnamon oil fibers directly onto the wound, meantime forming a wound dressing. The mice cut-wound model experiment demonstrated that the one step in situ fabrication and application of zein/cinnamon oil wound dressing could nearly heal the wound within 11 d.     

细胞内原位纳米催化在疾病诊断与治疗中的应用

纳米催化剂因其经济、 稳定以及可量产等优势, 实现了细胞内原位催化反应, 为分子水平人工调控细胞功能提供了可能. 人工纳米催化剂优异的催化性能使其在不同生理和病理条件下成功用于诊断成像和治疗. 本文综合评述了具有天然酶活性的纳米催化剂在癌症和氧化应激治疗以及基于纳米催化剂介导的细胞内原位催化反应的精准诊断成像方面的主要研究进展, 并对纳米催化剂在未来生物医药领域应用中面临的挑战和机遇进行了展望.