Increased human and industrial activities have exacerbated the release of toxic materials and acute envi-ronmental pollution in recent times.Biochar,a carbon-rich material produced from biomass,is gaining momentum as ...Increased human and industrial activities have exacerbated the release of toxic materials and acute envi-ronmental pollution in recent times.Biochar,a carbon-rich material produced from biomass,is gaining momentum as a versatile material for attaining a sustainable environment.The study reviews the application of functionalized biochar for energy storage,environmental remediation,catalysis,and sustainable agriculture,aiming to achieve a greener future.Thedeployment of crop residues as a renewable feedstock for biochar,and their properties,compositions,modification,and functionalization techniques are also discussed.Additionally,the avenues for applying functionalized biochar to achieve a greener future,future trends and innovations,challenges,and future research directions are highlighted.Despite the limitations of scalability,ecotoxicological risks,logistical issues,lack of characterization protocols,high production costs,poor social acceptance,and inadequate policy and regulatory frameworks,functionalized biochar offers a better surface area,improved porosity,enhanced functional groups,and higher recoverability,leading to improved performance,adsorption capacity,biodegradability,and applications in specialized fields.Future research should prioritize standardization,scalability,cost reduction strategies,expansion of application areas,integration of emerging tools such as artificial intelligence and predictive modeling,and the development of policy and regulatory frameworks,ensuring that biochar’s full potential is harnessed effectively to support a low-carbon,resource-efficient future and global sustainability goals.展开更多
文摘Increased human and industrial activities have exacerbated the release of toxic materials and acute envi-ronmental pollution in recent times.Biochar,a carbon-rich material produced from biomass,is gaining momentum as a versatile material for attaining a sustainable environment.The study reviews the application of functionalized biochar for energy storage,environmental remediation,catalysis,and sustainable agriculture,aiming to achieve a greener future.Thedeployment of crop residues as a renewable feedstock for biochar,and their properties,compositions,modification,and functionalization techniques are also discussed.Additionally,the avenues for applying functionalized biochar to achieve a greener future,future trends and innovations,challenges,and future research directions are highlighted.Despite the limitations of scalability,ecotoxicological risks,logistical issues,lack of characterization protocols,high production costs,poor social acceptance,and inadequate policy and regulatory frameworks,functionalized biochar offers a better surface area,improved porosity,enhanced functional groups,and higher recoverability,leading to improved performance,adsorption capacity,biodegradability,and applications in specialized fields.Future research should prioritize standardization,scalability,cost reduction strategies,expansion of application areas,integration of emerging tools such as artificial intelligence and predictive modeling,and the development of policy and regulatory frameworks,ensuring that biochar’s full potential is harnessed effectively to support a low-carbon,resource-efficient future and global sustainability goals.
