Biosensors and Nanotheranostics
Latest Issue - Volume 4 Number 1 2025
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Biosensors and Nanotheranostics
Biosensors and Nanotheranostics is an open-access, peer-reviewed international journal dedicated to advancing the fields of biosensors, nanomedicine, and associated technologies. Our mission is to
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Biosensors and Nanotheranostics
Volume 4 Number 1 2025
Table of Contents
Reviews
Earth and Environmental Sciences
Application of Nanotechnology in Plastic Waste Management and Recycling: Bangladesh Perspective
Md Shariful Islam1*, Md Jakaria2, Md Masum Rabbi Mim1, Jafor Raihan1, Alam Khan3, G M Shafiur Rahman4
This study provides critical insights into utilizing nanotechnology for sustainable plastic waste management in Bangladesh, promoting environmental and economic benefits.
Abstract | Full Text |PDF (561 KB) | Open Access Article
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Targeting mRNA G-quadruplexes with peptide nucleic acid conjugates to regulate gene expression in vivo
This study demonstrates peptide nucleic acid conjugates stabilizing RNA G-quadruplexes, offering a novel approach to oncogene translation regulation.
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Green Nanotechnology: Sustainable Approaches for Environmental Remediation and Waste Management
The study highlights the potential of green nanotechnology in sustainable pollution control, waste treatment, and advancing circular economy principles for environmental remediation.
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Smartphone-Integrated Point-of-Care Sensor for Rapid and Sensitive Malaria Detection in Resource-Limited Settings
A low-cost, portable diagnostic device enables sensitive, rapid malaria detection, aiding intervention programs to reduce transmission and improve outcomes globally.
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Rapid and Low-Cost Field Toxin Analysis to Monitor Harmful Algal Blooms
The GinerSTAT enables rapid, cost-effective detection of brevetoxins in seawater, revolutionizing harmful algal bloom monitoring and mitigating health and economic impacts.
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Sustainable Development and Characterization of Biodegradable Collagen-Calcium Carbonate (Col-Caco3) Microporous Composite Scaffold For Bone Tissue Regeneration
Microporous COL-CaCO3 scaffolds with additives and compression tuning significantly improved mechanical strength, supporting sustainable bone tissue engineering applications.
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Polymer-Based Systems for Targeted miRNA Delivery
This study develops thermoresponsive star copolymers with potential for efficient, biocompatible nucleic acid delivery in biomedical applications.
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Development of Peptide-Polymer Conjugates for Enhanced Cartilage Tissue Engineering
This study develops bioactive peptide-polymer scaffolds, enhancing chondrocyte proliferation, ECM deposition, and mechanical properties for advanced cartilage tissue engineering applications.
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Nanomaterials Targeting Red Blood Cells: Implications for Drug Delivery and Biosensing
This study advances RBC-based nano-carriers using pseudopeptidic polymers and improved purification, enhancing targeted, personalized, and sustained drug delivery.
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Advancements in Biomaterial-Based Nucleic Acid Delivery Systems for In Situ Tissue Engineering: A Systematic Review and Meta-Analysis
Combining biomaterial scaffolds with nucleic acid vectors enhances safety, delivery efficiency, and controlled release for regenerative medicine applications.
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