Environmental Decontamination(环境净化)研究综述
Environmental Decontamination 环境净化 - fluorescens can be used as a promising candidate for the bioremediation of the textile effluents containing Procion Red Yellow to offer promise for environmental decontamination and even greater development for green chemistry in the near future. [1] Biostimulation and bioaugmentation have been proposed as sustainable alternatives to physicochemical treatments for the environmental decontamination of polycyclic aromatic hydrocarbons (PAH). [2] — To review the state of current knowledge addressing challenges in the accurate identification of C auris in the diagnostic microbiology laboratory, including application of phenotypic, proteomic, and genomic methodologies; characteristics that may predispose the human host to acquiring C auris; transmission; clinical presentations; treatment modalities; environmental decontamination; and infection prevention in health care settings. [3] This work improved the fundamental understanding of a new class of AOPs by combining KMnO4 and PMS for environmental decontamination. [4] This work advances the fundamental understanding of a novel class of oxidation technology based on the combination of Mn(VII) and bisulfite for environmental decontamination. [5] Detergents and sporicidal disinfectants should be used for environmental decontamination. [6] These findings can help in understanding the facet dependent surface Fenton chemistry of catalytic redox reactions and in designing high-efficient catalysts for environmental decontamination. [7] Metal-organic frameworks (MOFs), an emerging class of porous hybrid inorganic-organic crystals, exhibit very important application prospects in gas storage and separation, heterogeneous catalysis, sensing, drug release, environmental decontamination, etc. [8] Moreover, the cubic structured ZnO SnO2-5 heterojunction nanocomposite demonstrated the outstanding photo stability after four cycles, providing a facile and operative method for the remediation of persistent organic pollutants in visible light and that might be utilized for the environmental decontamination. [9] Recently, redox oxidation technology based on peroxydisulfate (PDS) activation by heterogeneous catalyst has shown promising potential for environmental decontamination. [10] The asymmetric nature of Janus particles made from synthetic polymers gives them intriguing properties that have found applications in a wide variety of fields, such as drug delivery, emulsion stabilization, and environmental decontamination. [11] Sulfate radical (SO4 −) based oxidation is an efficient and selective strategy for environmental decontamination. [12] Our approach sheds light into how to optimize the combined use of hand hygiene and environmental decontamination for the best effectiveness under different settings. [13] A higher incidence of new cases was detected in three adjoining rooms, in which environmental decontamination was performed with vaporized hydrogen peroxide. [14] The search for new technologies for environmental decontamination, of low cost and environmentally correct are encouraged. [15] Our results indicated a high efficiency of the monitored natural attenuation (MNA) for oil consumption in the tested mangrove sediments, revealing the potential of this strategy for environmental decontamination and suggesting that environmental and ecological factors may select for specific bacterial populations in distinct niches. [16] The main goal of the present work is to reassess the effectiveness of environmental decontamination (ED) and antimicrobial drug administration (ADA) by taking into account pathogen trait evolution within and between the hosts. [17] Developing efficient visible-light-driven photocatalysts for environmental decontamination is of considerable importance in solar energy conversion and utilization. [18] This work opens a new strategy to constructing multi-component Z-scheme photocatalytic system for environmental decontamination. [19] The aim of this paper is to provide a comprehensive review on the evolution of FeS nanoparticles for environmental decontamination. [20] Intervention: multifaceted program based on environmental decontamination, hand hygiene, antimicrobial stewardship, contact precautions, active surveillance, weekly reports and regular meetings. [21] In order to advance this concept for environmental decontamination, the degradation of the phosphorous-organic pesticide and chemical warfare agent, profenofos (PF), was tested. [22] BACKGROUND Mobile ultraviolet C (UV-C) room decontamination devices are widely used in health care facilities; however, there is limited information on the perceptions of patients, health care workers (HCWs), and environmental services staff (EVS-staff) regarding their use for environmental decontamination. [23] This work provides a new approach in the rational design of ternary heterojunction photocatalyst with multilevel electron transfer for environmental decontamination. [24] Providers must also be vigilant with hand hygiene and environmental decontamination in all healthcare settings. [25] Utilizing a gradient type algorithm with projection, the optimality system is solved for three control strategies: optimal use of vaccination, environmental decontamination, and a combination of vaccination and environmental decontamination. [26] BACKGROUND Environmental decontamination is one of the most effective methods to prevent transmission of infectious pathogens in child care centers (CCCs). [27] This novel route is easy handling and energy saving, promising it to be a reliable way to produce biochars with attractive surface properties for environmental decontamination. [28] CONCLUSIONS Environmental decontamination is not difficult in homes exposed to M. [29] The innovation of the photocatalytic process has been presented to be the green and feasible method for the environmental decontamination. [30] Further, the advancement of In2S3-based photocatalytic, photoelectrocatalytic and photovoltaic systems, especially in environmental decontamination, artificial photosynthesis for renewable fuels and solar cells, are highlighted in detail. [31] Ferrate(VI) (FeVIO42-, Fe(VI)), as a new type of green multifunctional water treatment agent, has shown promising potential for environmental decontamination. [32]荧光素可用作含有 Procion Red Yellow 的纺织废水生物修复的有希望的候选者,为环境净化和绿色化学在不久的将来的更大发展提供了希望。 [1] 生物刺激和生物强化已被提议作为物理化学处理的可持续替代方案,用于多环芳烃 (PAH) 的环境净化。 [2] — 回顾当前在诊断微生物学实验室中应对耳念珠菌准确鉴定挑战的知识状况,包括表型、蛋白质组学和基因组学方法的应用;可能使人类宿主容易获得 C auris 的特征;传播;临床表现;治疗方式;环境净化;和卫生保健机构中的感染预防。 [3] 这项工作通过结合 KMnO4 和 PMS 进行环境净化,提高了对一类新型 AOP 的基本理解。 [4] 这项工作促进了对基于 Mn(VII) 和亚硫酸氢盐组合用于环境净化的新型氧化技术的基本理解。 [5] 环境净化应使用清洁剂和杀孢子消毒剂。 [6] 这些发现有助于理解催化氧化还原反应的面依赖表面芬顿化学,并有助于设计用于环境净化的高效催化剂。 [7] 金属有机框架(MOFs)是一类新兴的多孔杂化无机有机晶体,在气体储存与分离、多相催化、传感、药物释放、环境净化等方面具有非常重要的应用前景。 [8] 此外,立方结构的 ZnO SnO2-5 异质结纳米复合材料在四次循环后表现出出色的光稳定性,为可见光下持久性有机污染物的修复提供了一种简便易行的方法,可用于环境净化。 [9] 最近,基于非均相催化剂活化过二硫酸盐(PDS)的氧化还原氧化技术在环境净化方面显示出广阔的潜力。 [10] 由合成聚合物制成的 Janus 颗粒的不对称特性赋予了它们有趣的特性,这些特性已在广泛的领域中得到应用,例如药物输送、乳液稳定和环境净化。 [11] 基于硫酸根 (SO4 -) 的氧化是一种有效且选择性的环境净化策略。 [12] 我们的方法揭示了如何优化手部卫生和环境净化的组合使用,以在不同环境下实现最佳效果。 [13] 在三个相邻的房间中检测到新病例的发生率较高,其中使用汽化过氧化氢进行环境净化。 [14] 鼓励寻找低成本、环保的新型环境净化技术。 [15] 我们的结果表明,在测试的红树林沉积物中监测到的石油消耗的自然衰减 (MNA) 效率很高,揭示了这种策略在环境净化方面的潜力,并表明环境和生态因素可能会选择不同生态位中的特定细菌种群。 [16] 本工作的主要目标是通过考虑宿主内部和宿主之间的病原体特征进化,重新评估环境净化 (ED) 和抗菌药物管理 (ADA) 的有效性。 [17] 开发用于环境净化的高效可见光驱动光催化剂在太阳能转换和利用中具有相当重要的意义。 [18] 该工作为构建多组分Z型光催化环境净化系统开辟了新的策略。 [19] 本文的目的是对用于环境净化的 FeS 纳米粒子的演变进行全面回顾。 [20] 干预:基于环境净化、手部卫生、抗菌药物管理、接触预防措施、主动监测、每周报告和定期会议的多方面计划。 [21] 为了推进这一环境净化概念,对有机磷农药和化学战剂丙溴磷 (PF) 的降解进行了测试。 [22] 背景 移动式紫外线C(UV-C)室内去污设备广泛应用于医疗保健设施;然而,关于患者、卫生保健工作者 (HCW) 和环境服务人员 (EVS-staff) 对其用于环境净化的看法的信息有限。 [23] 这项工作为合理设计具有多能级电子转移的三元异质结光催化剂用于环境净化提供了一种新方法。 [24] 提供者还必须在所有医疗保健机构中对手部卫生和环境净化保持警惕。 [25] 利用带有投影的梯度型算法,求解了三种控制策略的最优系统:疫苗接种的最佳使用、环境净化以及疫苗接种和环境净化的组合。 [26] 背景 环境净化是预防儿童保育中心 (CCC) 中传染性病原体传播的最有效方法之一。 [27] 这种新颖的路线易于处理且节能,有望成为生产具有有吸引力的表面特性的生物炭用于环境净化的可靠方法。 [28] 结论 在暴露于 M. [29] 光催化工艺的创新被认为是一种绿色可行的环境去污方法。 [30] 此外,还详细强调了基于 In2S3 的光催化、光电催化和光伏系统的进步,特别是在环境净化、可再生燃料的人工光合作用和太阳能电池方面的进展。 [31] 高铁酸盐(VI)(FeVIO42-,Fe(VI))作为一种新型的绿色多功能水处理剂,在环境净化方面显示出良好的潜力。 [32]
environmental decontamination strategy 环境净化策略
The findings reinforce the idea that there is a degree of variation in mechanisms of cortex hydrolysis across the Bacillales, raising potential implications for environmental decontamination strategies based upon targeted inactivation of components of the spore germination apparatus. [1] In conclusion, the increased prevalence of biological contamination incidents necessitates development of appropriate training to include environmental decontamination strategies to protect human health. [2]这些发现强化了这样一种观点,即整个芽孢杆菌的皮层水解机制存在一定程度的差异,这对基于孢子萌发装置组件的靶向失活的环境净化策略提出了潜在影响。 [1] 总之,随着生物污染事件的日益普遍,有必要开展适当的培训,以包括保护人类健康的环境净化战略。 [2]
environmental decontamination application 环境净化应用
The synthesis of harmless, cost-effective, and visible-light-driven photocatalytic materials has received significant attention to the researchers in the environmental decontamination applications. [1] The present work could provide navel perspectives for advancing the photocatalysis efficiency, offer a new insight of the photocatalytic reaction mechanism and promote large-scale environmental decontamination applications of plasma-based semiconductor composites. [2]无害、经济高效和可见光驱动的光催化材料的合成在环境净化应用中受到了研究人员的极大关注。 [1] 目前的工作可以为提高光催化效率提供新的视角,为光催化反应机理提供新的见解,并促进等离子体基半导体复合材料的大规模环境净化应用。 [2]