納米材料是具有較低納米尺寸范圍內(nèi)典型尺寸特征和特征介觀性質(zhì)的材料，例如量子尺寸效應(yīng)。這些特性使它們成為基礎(chǔ)研究和潛在新應(yīng)用的吸引對(duì)象。納米材料的范圍包括所有納米材料的制備、表征和應(yīng)用。以下示例可為將涵蓋的內(nèi)容提供指導(dǎo)（不排除）：納米材料：納米顆粒、涂層和薄膜、無機(jī)有機(jī)雜化物和復(fù)合材料（即MOF）、膜、納米合金、量子點(diǎn)、自組裝、石墨烯、納米管等方法學(xué)：有機(jī)、無機(jī)和混合納米材料的合成介觀性質(zhì)的表征納米材料建模和/或介觀效應(yīng)應(yīng)用：任何新納米材料的應(yīng)用或納米材料的新應(yīng)用

Nanomaterials are materials with typical size features in the lower nanometer size range and characteristic mesoscopic properties; for example quantum size effects. These properties make them attractive objects of fundamental research and potential new applications. The scope of Nanomaterials covers the preparation, characterization and application of all nanomaterials.The following examples may provide a guide to what will be covered (not exclusive):Nanomaterials:Nanoparticles, coatings and thin films, inorganic-organic hybrids and composites (i.e. MOFs), membranes, nano-alloys, quantum dots, self-assemblies, graphene, nanotubes, etcMethodologies:Synthesis of organic, inorganic, and hybrid nanomaterialsCharacterization of mesoscopic propertiesModelling of nanomaterials and/or mesoscopic effectsApplications:Any application of new nanomaterials or new application of nanomaterials