Información de la Revista

Biofunctional Materials

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Editor:
ELSP
ISSN:
2959-0574
Vistas:
5794
Seguidores:
0

Solicitud de Artículos

Biofunctional Materials is an academic journal published by ELSP. (ISSN 2959-0574).

Biofunctional Materials is an online multidisciplinary open access journal aiming to provide a peer-reviewed forum for innovation, research and development related to bioactive materials, biomedical materials, bio-inspired materials, bio-fabrications and other bio-functional materials. The Subject Areas include, but are not limited to: Nanomedical materials in drug delivery and drug release, gene and immune therapy nanostructured coatings for enhanced adhesive, anti-bacterial, anti-viral properties, and anti-fouling properties. Regenerative biomaterials, materials with engineered interfaces, self-assembled materials, materials with selective mechanical and functional properties, and multi-scale scaffolds for tissue engineering and thrombogenic control, and dental materials for soft and hard tissue reconstruction and regeneration. 3D/4D printing for bioactive materials. Theoretical (In-Silico) Biomaterials modeling, design, and AI applications.
Última actualización por Dou Sun el

Special Issues

Special Issue on Biofunctional Materials for Clinical Diagnostics and Therapy Día de Entrega: 2026-07-31 Biofunctional materials play a crucial role in advancing clinical diagnostics and therapy by providing innovative solutions for disease detection, monitoring, and treatment. These materials, such as biosensors, nanoparticles, and microarrays, offer enhanced sensitivity, selectivity, and multiplexing capabilities, allowing for the detection of biomarkers, pathogens, and genetic variations, which contribute to the development of more accurate and efficient diagnostic tools. In addition to diagnostics, biofunctional materials have significant potential in therapeutic applications. These materials, such as nanoparticles, hydrogels, and scaffolds, offer unique properties, including biocompatibility, biodegradability, and the ability to encapsulate and release therapeutic agents. We invite researchers and experts in the field to submit their original research articles, reviews, and perspectives to contribute to this special issue. This includes but is not limited to the following categories: Biopharmaceutics Material imaging modalities Pharmaceutical applications Drug delivery Cell delivery Contrast agents Diagnostic systems Process development Design and simulation Together, let us explore the potential of biofunctional materials in clinical diagnostics and therapy and pave the way for future innovations in this exciting field.
Última actualización por Dou Sun el

Special Issue on Biofunctional Materials for Tissue Regeneration Día de Entrega: 2026-09-30 The primary attribute of biofunctional materials is their biocompatibility. This ability allows them to perform a desired function in the body without creating any adverse host response. The initial immune response would depend on the route and the administration site for short-term implants such as drug, gene, or cell delivery systems. However, in the long term, implants such as stents, and bone implants, etc., even after the body tolerates the material, there could be further complications and implant rejection. In both cases, the biofunctional materials must be immunomodulatory to attain tissue regeneration successfully. Immunomodulation can be achieved by carefully tuning the microscopic and macroscopic properties of the materials, such as surface chemistry, degradability, topography, physical properties, etc. In this special issue, we invite research and review articles demonstrating the biocompatibility, survival, and function of biomaterials achieved by immuno-bioengineering for both short-term and long-term applications. This includes but is not limited to the following categories: Studies demonstrating basic biocompatibility analytical methods such as blood compatibility, cytotoxicity, immunocytochemistry, immunohistochemistry, etc. Designing and synthesizing biomaterials with desirable surface chemistry to prevent the infiltration of immune cells into the implants. Adopting techniques to modulate the microenvironment by engineering the surface topography, including 3D bioprinting scaffolds. Machine learning and computational modeling tools to detect and predict the fate of bioengineered materials.
Última actualización por Dou Sun el

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