Modern environmental challenges demand innovative and practical solutions. The synergy of biotechnology and nanotechnology offers promising tools. The burgeoning realm of bio-nanotechnology presents innovative avenues by capitalizing on nanomaterials' unique attributes and biological systems' adaptability for efficacious and ecologically sound remediation. This Special Issue seeks to spotlight remarkable strides achieved through bio-nanotechnology in the restoration of various environmental matrices. Manuscripts included in this issue will spotlight leading-edge research concerning bio-nanomaterial synthesis and characterization, their application in eliminating contaminants, and their influence on environmental processes. Additionally, studies delving into the environmental destiny and ramifications of bio-nanomaterials during remediation will be showcased. By showcasing the vanguard of interdisciplinary research, this Special Issue endeavors to nurture collaborations and offer a conduit for disseminating wisdom that fosters sustainable, effective solutions for diverse environmental matrix remediation.
The primary goal of the Special Issue is to spotlight practical advancements and real-world applications in the realm of bio-nanotechnology for environmental restoration. We aim to bridge the gap between cutting-edge scientific research and its practical implications by showcasing tangible solutions for addressing contemporary environmental challenges. This Special Issue seeks to provide a platform for researchers, practitioners, and stakeholders to share their insights and experiences regarding the synthesis, characterization, and application of bio-nanomaterials for waste management and pollution monitoring. We aspire to foster a collaborative environment where interdisciplinary discussions can pave the way for innovative strategies that effectively remediate diverse environmental matrices. Through comprehensive studies on the efficacy and impact of bio-nanomaterials, as well as their behavior in real-world remediation scenarios, this Special Issue aims to contribute to the development of sustainable solutions. By highlighting practical applications and their outcomes, we aim to inspire further research, encourage knowledge exchange, and ultimately drive the implementation of bio-nanotechnology-based approaches in tackling the urgent environmental challenges we face today.
We invite the submission of Original Research, Review, Mini Review, and Perspective articles encompassing various themes, including but not limited to:
Addressing sediment contamination with bio-nano approaches
Bio-Nano solutions for improving water quality through bioremediation
Developing sustainable and environmentally friendly remediation approaches
Enhancing environmental processes with bio-nano techniques
Exploring the role of nano-methods in managing emerging contaminants
Harnessing nanotechnology for soil restoration
Innovative bio-nanotechnology for removing contaminants
Investigating the environmental fate and consequences of bio-nanomaterials
Synthesis and characterization of bio-nanomaterials
Utilizing bio-nanotechnology for air quality enhancement
Keywords:
Bio-Nano Remediation, Eco-Friendly Solutions, Emerging Contaminants, Environmental Nanotechnology, Sustainable Waste Management
Important Note:
All contributions to this Research Topic must be within the scope of the section and journal to which they are submitted, as defined in their mission statements. Frontiers reserves the right to guide an out-of-scope manuscript to a more suitable section or journal at any stage of peer review.
Modern environmental challenges demand innovative and practical solutions. The synergy of biotechnology and nanotechnology offers promising tools. The burgeoning realm of bio-nanotechnology presents innovative avenues by capitalizing on nanomaterials' unique attributes and biological systems' adaptability for efficacious and ecologically sound remediation. This Special Issue seeks to spotlight remarkable strides achieved through bio-nanotechnology in the restoration of various environmental matrices. Manuscripts included in this issue will spotlight leading-edge research concerning bio-nanomaterial synthesis and characterization, their application in eliminating contaminants, and their influence on environmental processes. Additionally, studies delving into the environmental destiny and ramifications of bio-nanomaterials during remediation will be showcased. By showcasing the vanguard of interdisciplinary research, this Special Issue endeavors to nurture collaborations and offer a conduit for disseminating wisdom that fosters sustainable, effective solutions for diverse environmental matrix remediation.
The primary goal of the Special Issue is to spotlight practical advancements and real-world applications in the realm of bio-nanotechnology for environmental restoration. We aim to bridge the gap between cutting-edge scientific research and its practical implications by showcasing tangible solutions for addressing contemporary environmental challenges. This Special Issue seeks to provide a platform for researchers, practitioners, and stakeholders to share their insights and experiences regarding the synthesis, characterization, and application of bio-nanomaterials for waste management and pollution monitoring. We aspire to foster a collaborative environment where interdisciplinary discussions can pave the way for innovative strategies that effectively remediate diverse environmental matrices. Through comprehensive studies on the efficacy and impact of bio-nanomaterials, as well as their behavior in real-world remediation scenarios, this Special Issue aims to contribute to the development of sustainable solutions. By highlighting practical applications and their outcomes, we aim to inspire further research, encourage knowledge exchange, and ultimately drive the implementation of bio-nanotechnology-based approaches in tackling the urgent environmental challenges we face today.
We invite the submission of Original Research, Review, Mini Review, and Perspective articles encompassing various themes, including but not limited to:
Addressing sediment contamination with bio-nano approaches
Bio-Nano solutions for improving water quality through bioremediation
Developing sustainable and environmentally friendly remediation approaches
Enhancing environmental processes with bio-nano techniques
Exploring the role of nano-methods in managing emerging contaminants
Harnessing nanotechnology for soil restoration
Innovative bio-nanotechnology for removing contaminants
Investigating the environmental fate and consequences of bio-nanomaterials
Synthesis and characterization of bio-nanomaterials
Utilizing bio-nanotechnology for air quality enhancement
Keywords:
Bio-Nano Remediation, Eco-Friendly Solutions, Emerging Contaminants, Environmental Nanotechnology, Sustainable Waste Management
Important Note:
All contributions to this Research Topic must be within the scope of the section and journal to which they are submitted, as defined in their mission statements. Frontiers reserves the right to guide an out-of-scope manuscript to a more suitable section or journal at any stage of peer review.