Back to Journals » Drug Design, Development and Therapy » Sol Gel Based Hybrid Materials in Drug Delivery and Biotherapeutic Stabilization
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Drug Design, Development and Therapy
ISSN: 1177-8881
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- Volume 20, 2026 (304)
- Volume 19, 2025 (762)
- Volume 18, 2024 (430)
- Volume 17, 2023 (283)
- Volume 16, 2022 (316)
- Volume 15, 2021 (399)
- Volume 14, 2020 (477)
- Volume 13, 2019 (387)
- Volume 12, 2018 (382)
- Volume 11, 2017 (330)
- Volume 10, 2016 (374)
- Volume 9, 2015 (543)
- Volume 8, 2014 (231)
- Volume 7, 2013 (143)
- Volume 6, 2012 (42)
- Volume 5, 2011 (40)
- Volume 4, 2010 (35)
- Volume 3, 2009 (27)
- Volume 2, 2008 (29)
- Volume 1, 2007 (1)
Journal Articles:
- Modern Computational Approaches for Drug Design and Discovery (3)
- Advances in p53 Drug Discovery (4)
- Nanotechnology in Drug Delivery for Neurodegenerative Diseases (2)
- New Trends in Formulations for Oral Inhalation (1)
- Exploring Fragment-Based Approaches in Drug Discovery (2)
- Advances in design and development of ophthalmic drugs (9)
- Using Innovative Drug Delivery Systems to Improve the Efficacy and Applicability of Poorly Water-soluble Drugs (4)
- Beyond Brain Boundaries: Overcoming the Blood-Brain Barrier to Reach the Central Nervous System (1)
- A cross-sectional survey on heart failure from China: disease burden and management (3)
- Ten Years of Biosimilars in Europe (4)
Sol Gel-Based Hybrid Materials in Drug Delivery and Biotherapeutic Stabilization
The development of advanced drug delivery systems is essential for improving the efficacy and shelf-life of sensitive biomolecules, including proteins, peptides, and nucleic acids. Among emerging technologies, sol gel-derived hybrid materials, particularly silica-based matrices, have gained prominence as versatile platforms for therapeutic stabilization and delivery. This Collection fosters interdisciplinary contributions that integrate material science with drug design and therapeutic application.