環(huán)境科學(xué)納米是納米材料與生物和環(huán)境系統(tǒng)相互作用以及可持續(xù)性工程納米材料設(shè)計(jì)和使用的綜合信息來源。可持續(xù)發(fā)展納米技術(shù)需要基本了解納米材料的特性如何影響其在一系列環(huán)境和生物介質(zhì)/系統(tǒng)中的反應(yīng)性、環(huán)境命運(yùn)和毒性。利用納米材料實(shí)現(xiàn)可持續(xù)性需要了解如何控制納米材料的特性，以優(yōu)化特定技術(shù)的好處。環(huán)境科學(xué)納米涵蓋了納米科學(xué)和納米技術(shù)對(duì)環(huán)境和人類健康以及納米技術(shù)的可持續(xù)設(shè)計(jì)、開發(fā)和使用的益處和影響。包括以下內(nèi)容：合理設(shè)計(jì)生命周期影響量化納米材料應(yīng)用的好處和風(fēng)險(xiǎn)生物吸收和生態(tài)毒性水、空氣、土壤、食物和能源的新應(yīng)用生物和環(huán)境介質(zhì)的特性納米生物相互作用環(huán)境命運(yùn)、反應(yīng)性和轉(zhuǎn)變環(huán)境修復(fù)

Environmental Science-Nano is a comprehensive source of information on nanomaterial interactions with biological and environmental systems, and the design and use of engineered nanomaterials for sustainability. Developing nanotechnology sustainably requires fundamental understanding of how nanomaterial properties affect their reactivity, environmental fate, and toxicity in a range of environmental and biological media/systems. Leveraging nanomaterials for sustainability requires understanding how nanomaterial properties can be controlled to optimise the benefits of a particular technology.Environmental Science-Nano covers the benefits and implications of nanoscience and nanotechnology on environmental and human health and the sustainable design, development and use of nanotechnologies. This includes the following.Rational designLife cycle implicationsQuantifying the benefits and risks of nanomaterial applicationsBiological uptake and ecotoxicityNovel applications for water, air, soil, food and energyCharacterisation in biological and environmental mediaNano-bio interactionsEnvironmental fate, reactivity and transformationsEnvironmental remediation