Sustainable nanocomposite porous absorbent and membrane sieves: Definition, classification, history, properties, synthesis, applications, and future prospects

The everlasting need for safe drinking water, increasing maintenance costs, consumption of energy, and depletion of natural reserves have forced environmentalists and technologists to develop efficient techniques and suitable devices, which help in meeting global challenges. Therefore, the development of cost-effective sus-tainable porous polymer composite-based adsorbent and membrane sieves, and their use in wastewater treat-ment and other applications, have enormously attracted the interest of industrialists and researchers. The scalability, porosity, tunable surface chemistry, low environmental footprints, and functionalization of porous structures of composite adsorbent and membrane sieves have further enhanced the scope of their potential application in the field of wastewater and other environmental remediation. However, to achieve a deep un-derstanding of their properties, processing, and applications a comprehensive exhaustive literature survey was conducted to report their brief history, classifications, bulk structural characteristics, designing strategies, and principles. The literature related to the construction of various advanced polymer sieves and other aspects of nanocomposite porous adsorbents and membrane sieves has also been discussed. In addition, the chemistry and mechanism involved in molecular separation through various polymer sieves are further reported. The strength of the present review is an attempt to cover the deep insights on sustainable porous adsorbent and membrane sieves, which has not been discussed earlier. The future scopes in relevance of the adsorbent and membrane sieves have also been covered.

Automated summary

The need for safe drinking water, increasing maintenance costs, consumption of energy, and depletion of natural reserves have led to the development of efficient techniques and devices in wastewater treatment. Porous polymer composite-based adsorbent and membrane sieves have attracted the interest of industrialists and researchers due to their scalability, porosity, low environmental footprints, and functionalization. This review provides a comprehensive analysis of the properties, processing, applications, and future scopes of these sustainable porous materials in the field of environmental remediation.