CO₂ capture, utilization and storage (CCUS) are recognized as the most effective strategy for the removal of CO₂ from terminal emissions, whereas CO₂ capture is the primary and fundamental pathway for CO₂ utilization and storage. The capture of CO₂ on various nanomaterials has worked well at the laboratory level, while there are significant differences and some challenges for the application of these nanomaterials (e.g., the limited adsorption capacity for ten billion of tons of CO₂ and poor regeneration) in real environmental remediation. Thus, the high efficient CO₂ capture on novel nanoparticles need to urgently investigated and reviewed in details. In this review, the recent advances of CO₂ capture on various nanoadsorbents (i.e., carbon-, metal (hydr)oxides-, silica-, zeolite- and polymer-bearing nanoparticles) were reviewed in details. Finally, the challenges and prospective of CO₂ capture were proposed. These findings showed the high effective capture of CO₂ on these nanoadsorbents under certain conditions. We hope that this review can provide an important guide for the environmental engineers and/or material scientists applying various nanomaterials to CO₂ capture.

CO ₂捕获、利用和储存（CCUS）被认为是从终端排放物中去除CO _{2的最有效策略，而CO 2捕获是CO 2}利用和储存的主要和基本途径。各种纳米材料对CO ₂的捕获在实验室水平上取得了良好的效果，但这些纳米材料在实际应用中存在显着差异和一些挑战（例如，对百亿吨CO 2 的吸附能力有限，再生能力差_）。真正的环境整治。因此，高效CO ₂捕获新型纳米粒子需要紧急调查和详细审查。在这篇综述中，详细回顾了各种纳米吸附剂（即碳、金属（氢）氧化物、二氧化硅、沸石和聚合物纳米粒子）捕获CO ₂的最新进展。最后，提出了CO _2捕获的挑战和前景。这些发现表明，在某些条件下，这些纳米吸附剂可高效捕获 CO _{2 。我们希望这篇综述能够为环境工程师和/或材料科学家将各种纳米材料应用于CO 2}捕获提供重要的指导。