Uv Protective(紫外线防护)研究综述
Uv Protective 紫外线防护 - This study provides an innovative method towards the clean and scale-up preparation of Ag NPs using black rice extract as green reductant to endow cotton fabrics with durable antibacterial activity, UV protective, and hydrophobic performance, which was possessed of universal applicability for many kinds of industrial crops containing anthocyanins. [1] camphora natural dye generated wastewater over and over again for simultaneous coloration and development of UV protective and antioxidant wool fabric. [2] This study presents a facile and solvent-free fabrication of flame retardant (FR), UV protective, and reinforced poly(lactic acid) (PLA) composite using two bio-based complexing couples: tannin acid/ferric salt (TAFe) and chitosan/phytic acid (CTSPA). [3] A special focus is set on the functional properties, antimicrobial, UV protective, and flame retardant. [4] PURPOSE The purpose of this in vitro study was to investigate the effect of UV protectives on the mechanical properties of maxillofacial silicones after artificial aging. [5] Tannins from Terminalia chebula fruits have been explored to develop colored, UV protective and antioxidant functional wool textiles. [6] In this project, the UV protection property of textile fabrics made of natural and regenerated cellulose fibres have been compared and analysed in order to highlight the potential of hemp fibre for the development of more sustainable and healthy functionalized (UV protective) textile products. [7] The coated fabrics also demonstrated to be UV protective and antimicrobial. [8]该研究为利用黑米提取物作为绿色还原剂清洁和放大制备Ag NPs提供了一种创新方法,赋予棉织物持久的抗菌活性、紫外线防护和疏水性能,对多种应用具有普遍适用性。含有花青素的经济作物。 [1] 樟脑天然染料一遍又一遍地产生废水,用于同时着色和开发紫外线防护和抗氧化羊毛织物。 [2] 本研究介绍了一种使用两种生物基络合对:单宁酸/铁盐 (TAFe) 和壳聚糖/植酸(CTSPA)。 [3] 特别关注功能特性、抗菌、紫外线防护和阻燃性。 [4] 目的 这项体外研究的目的是研究紫外线防护剂对人工老化后颌面有机硅机械性能的影响。 [5] Terminalia chebula 果实中的单宁已被探索用于开发有色、防紫外线和抗氧化功能的羊毛纺织品。 [6] 在这个项目中,对由天然和再生纤维素纤维制成的纺织面料的紫外线防护性能进行了比较和分析,以突出大麻纤维在开发更可持续和健康的功能化(紫外线防护)纺织产品方面的潜力。 [7] 涂层织物也被证明具有紫外线防护和抗菌作用。 [8]
Wearable Uv Protective 可穿戴紫外线防护
The c-PU MicroPCMs with reversible photochromic show promising application in the fields of anti-counterfeiting technology and flexible wearable UV protective clothing. [1] The investigations of photochromic nanoparticle latexes guide an approach to reversible optical data storage, multipurpose photo-responsive sensing system and show promising application in the field of ultraviolet intensity indicator and flexible wearable UV protective clothing. [2]具有可逆光致变色的c-PU MicroPCMs在防伪技术和柔性可穿戴紫外线防护服领域具有广阔的应用前景。 [1] 光致变色纳米颗粒胶乳的研究为可逆光学数据存储、多功能光响应传感系统提供了指导,并在紫外线强度指示器和柔性可穿戴紫外线防护服领域显示出广阔的应用前景。 [2]
uv protective property 紫外线防护性能
Additional to the broad view on all types of radiations, focusing in particular on materials exhibiting UV protective properties. [1] The results revealed that CHT-ZnO binary complex provided very good antibacterial and UV protective properties. [2] Considering the unique chemical and physical properties of low-molecular-weight organogelators (LMOGs), the present study intended to assess the UV protective properties of LMOGs-based lipstick formulations. [3] Moreover, it has also been proven that SLS treatment imparts a natural attractive yellow color, UV protective property to the treated fabric without altering physical strength of the fabric which can be considered as an added advantage over flame retardant effect. [4] When the pH value of the synthesis bath was 10, better K/S value, washing fastness, and UV protective properties were exhibited compared with other pH values. [5] Further, the antibacterial, anticancer, melanin formation, and UV protective properties for isolated THN compound were performed. [6] Thermal stability, UV protective property, washing stability, and tensile strength of the coated PET fabrics were measured. [7] ZnO nanoparticles (NPs) possess a wide range of biological functions in pharmaceutical and cosmetic applications due to their excellent antimicrobial, optical and UV protective properties. [8] Analysis of bioactive compounds that were previously reported to have UV protective properties using this model yielded data that showed the reproducibility and reliability of this model in determining UVB protective properties of the bioactive natural product compounds of interest. [9]除了对所有类型辐射的广泛看法外,特别关注具有紫外线防护特性的材料。 [1] 结果表明,CHT-ZnO二元复合物提供了非常好的抗菌和紫外线防护性能。 [2] 考虑到低分子量有机凝胶剂 (LMOG) 独特的化学和物理特性,本研究旨在评估基于 LMOG 的口红配方的紫外线防护性能。 [3] 此外,还证明 SLS 处理赋予处理过的织物天然的有吸引力的黄色、紫外线防护性能,而不会改变织物的物理强度,这可以被认为是阻燃效果的额外优势。 [4] 当合成浴的pH值为10时,与其他pH值相比,表现出更好的K/S值、水洗牢度和紫外线防护性能。 [5] 此外,对分离的 THN 化合物进行了抗菌、抗癌、黑色素形成和紫外线防护性能。 [6] 测量了涂层PET织物的热稳定性、紫外线防护性能、洗涤稳定性和拉伸强度。 [7] ZnO 纳米粒子 (NPs) 由于其出色的抗菌、光学和紫外线防护性能,在药物和化妆品应用中具有广泛的生物学功能。 [8] 使用该模型分析先前报道具有紫外线防护特性的生物活性化合物产生的数据显示该模型在确定感兴趣的生物活性天然产物化合物的 UVB 防护特性方面的可重复性和可靠性。 [9]
uv protective material 紫外线防护材料
6, suggesting promising potential as UV protective materials and excellent laundering durability. [1] Finally, tensile measurements and photo-catalytic degradation studies with indigo carmine (C16H8N2Na2O8S2) established the ability of PVP-PVA/CaZrO3 blend NCs for possible applications as mechanically flexible UV protective materials. [2] Fabrication of lignocellulosic biomass as a raw material should be a plausible option for the development of UV protective material from the industrial perspective. [3]6,表明作为紫外线防护材料的潜力和优异的洗涤耐久性。 [1] 最后,使用靛蓝胭脂红 (C16H8N2Na2O8S2) 进行的拉伸测量和光催化降解研究确定了 PVP-PVA/CaZrO3 共混 NCs 作为机械柔性紫外线防护材料的可能应用能力。 [2] 从工业角度来看,将木质纤维素生物质作为原料制造应该是开发紫外线防护材料的一个合理选择。 [3]
uv protective clothing 紫外线防护服
The c-PU MicroPCMs with reversible photochromic show promising application in the fields of anti-counterfeiting technology and flexible wearable UV protective clothing. [1] Sunscreen application to UV-exposed skin is promoted to prevent skin cancer and sun damage, within a comprehensive photoprotection strategy that also includes sun avoidance and wearing UV protective clothing. [2] The investigations of photochromic nanoparticle latexes guide an approach to reversible optical data storage, multipurpose photo-responsive sensing system and show promising application in the field of ultraviolet intensity indicator and flexible wearable UV protective clothing. [3]具有可逆光致变色的c-PU MicroPCMs在防伪技术和柔性可穿戴紫外线防护服领域具有广阔的应用前景。 [1] 在包括避免晒太阳和穿紫外线防护服在内的综合光保护策略中,提倡在暴露于紫外线的皮肤上涂抹防晒霜以预防皮肤癌和晒伤。 [2] 光致变色纳米颗粒胶乳的研究为可逆光学数据存储、多功能光响应传感系统提供了指导,并在紫外线强度指示器和柔性可穿戴紫外线防护服领域显示出广阔的应用前景。 [3]
uv protective coating 紫外线防护涂层
Herein we describe novel hyperbranched adhesive, UV protective coatings and functional elastomers with 6. [1] From this point of view, the hybrid materials have considerable application potential in next-generation UV protective coatings, especially with their utilization in heat-sensitive substrates or under high-temperature conditions. [2] The polyethylene films filled with n -SiC and n -Si obtained in this work are recommended for use as UV protective coatings for various purposes. [3]在这里,我们描述了新型超支化粘合剂、紫外线防护涂料和具有 6 的功能性弹性体。 [1] 从这个角度来看,混合材料在下一代紫外线防护涂料中具有相当大的应用潜力,特别是在热敏基材或高温条件下的应用。 [2] 在这项工作中获得的填充有 n -SiC 和 n -Si 的聚乙烯薄膜被推荐用作各种用途的紫外线防护涂层。 [3]
uv protective functionality
This study reported a facile structural modification of cellulosic fabric (cotton) by applying two different polyphenol enriched extracts derived from the banana floral stem (BFS) and watermelon rind (WR) for imparting UV protective functionality. [1] Moreover, the newly gained, good to very good UV protective functionality proved the suitability of the employed procedure and the sufficient durability of the selected coatings. [2]这项研究报告了一种简单的纤维素织物(棉)结构改性,方法是应用两种不同的富含多酚的香蕉花茎(BFS)和西瓜皮(WR)提取物来赋予紫外线防护功能。 [1] 此外,新获得的良好至非常好的紫外线防护功能证明了所采用程序的适用性和所选涂层的足够耐久性。 [2]
uv protective compound 紫外线防护剂
A goose aqueous humor extract, that was believed to contain the UV protective compound which was designated as “compound X”, was fractionated and examined using a variety of spectroscopic techniques including LC–MS and high field one- and two dimensional-NMR methods. [1] Lichens have developed several photoprotective mechanisms such as light scattering, radiation screening, activation of antioxidants and macromolecules, thermal dissipation, membrane repair and synthesis of UV protective compounds such as despides, diphenyl ether, xanthones, anthraquinones, mycosporines, mycosporine-like amino acids (MAAs) and scytonemin to cope up with damaging UVR. [2]使用包括 LC-MS 和高场一维和二维核磁共振方法在内的各种光谱技术对一种被认为含有紫外线防护化合物(称为“化合物 X”)的鹅房水提取物进行分级和检查。 [1] 地衣已经开发出几种光保护机制,例如光散射、辐射屏蔽、抗氧化剂和大分子的活化、散热、膜修复和紫外线防护化合物的合成,如地衣草醚、二苯醚、氧杂蒽酮、蒽醌、霉菌孢子素、类霉菌素氨基酸。 MAA) 和 scytonemin 以应对破坏性的 UVR。 [2]
uv protective natural 紫外线防护天然
Phytochemical screening was performed to confirm the types of UV protective natural chromophores (UVPNCs) extracted from BFS. [1] This study reported a facile and sustainable modification of cellulose by plant tannins and chitosan polymer for higher impregnation of UV protective natural chromophores (UVPNCs) derived from the banana floral stem (BFS). [2]进行植物化学筛选以确认从 BFS 中提取的紫外线防护天然发色团 (UVPNC) 的类型。 [1] 本研究报告了植物单宁和壳聚糖聚合物对纤维素的一种简便且可持续的改性,以更好地浸渍源自香蕉花茎 (BFS) 的紫外线防护天然发色团 (UVPNC)。 [2]