Pubblicazioni
- Device for transdermal delivery of active molecules, uses of the device and methods for producing the device and its components
- Extending the Shelf-Life of Meat and Dairy Products via PET-Modified Packaging Activated With the Antimicrobial Peptide MTP1
- Extending the Shelf-Life of Meat and Dairy Products via PET-Modified Packaging Activated With the Antimicrobial Peptide MTP1
- Photocatalytic hydrogen evolution by co-catalyst-free TiO <sub>2</sub> /C bulk heterostructures synthesized under mild conditions
- π–π stacked DNA G-wire nanostructures formed by a short G-rich oligonucleotide containing a 3′–3′ inversion of polarity site
- Photocatalytic hydrogen evolution by co-catalyst-free TiO 2/C bulk heterostructures synthesized under mild conditions
- Recent Advances on Diatom-Based Biosensors
- Microneedles-based electrochemical sensors: New tools for advanced biosensing
- Synthesis and Surface Modification of Nanostructured F-Doped ZnO: Toward a Transducer for Label-Free Optical Biosensing
- Microneedles Drug Delivery: Polymeric Microneedle Arrays: Versatile Tools for an Innovative Approach to Drug Administration (Adv. Therap. 8/2019)
- Porous Silicon-Based Aptasensors: The Next Generation of Label-Free Devices for Health Monitoring
- Polymeric Microneedle Arrays: Versatile Tools for an Innovative Approach to Drug Administration
- Microneedles-based electrochemical sensors: New tools for advanced biosensing
- In Vivo Toxicity: In Vivo Toxicity Assessment of Hybrid Diatomite Nanovectors Using <i>Hydra vulgaris</i> as a Model System (Adv. Biosys. 4/2019)
- Unraveling the Charge State of Oxygen Vacancies in ZrO<sub>2–<i>x</i></sub> on the Basis of Synergistic Computational and Experimental Evidence
- Photoemissive properties and stability of undecylenic acid-modified porous silicon nanoparticles in physiological medium
- In Vivo Toxicity Assessment of Hybrid Diatomite Nanovectors Using <i>Hydra vulgaris</i> as a Model System
- Newer Technologies, Better Healthcare
- Design and Synthesis of Hybrid PEGylated Metal Monopicolinate Cyclam Ligands for Biomedical Applications
- Functionalized Polymeric Materials with Bio-Derived Antimicrobial Peptides for “Active” Packaging