Techniques and Protocols for Evaluating Nanosystems

From Design and Development to Biological Applications

1st Edition - December 1, 2026
Latest edition
Editors: Natassa Pippa, Nefeli Lagopati
Language: English

Techniques and Protocols for Evaluating Nanosystems: From Design and Development to Biological Applications is a comprehensive guide on the main techniques used in the charac… Read more

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Description

Techniques and Protocols for Evaluating Nanosystems: From Design and Development to Biological Applications is a comprehensive guide on the main techniques used in the characterization of nanoparticulate systems. Covering a wide range of techniques such as thermal analysis, imaging, light scattering, analytical, optical spectroscopic, and statistical and AI-based optimization techniques, the book provides a thorough explanations of each technique, highlighting their advantages and limitations and providing characterization protocols and case studies for their application. Special attention is given to the regulatory and pharmaceutical industry requirements.

This book offers researchers and advanced students a valuable resource on application of these techniques in the fields of nanotechnology, pharmaceutical technology, and chemical engineering.

Key features

Presents the main techniques for the characterization of nanoparticulate systems, such as thermal analysis, imaging, light scattering techniques, and more
Discusses the design, development, evaluation, and possible applications of the nanoparticulate techniques covered
Features case studies and examples for each technique, providing readers with a practical tool

Readership

Researchers and advanced students in the fields of nanotechnology, pharmaceutical technology, and chemical engineering

1. The properties, the classes, and the applications of nanoparticulate systems

2. Differential Scanning Calorimetry and micro-Differential Scanning Calorimetry

3. Thermogravimetric analysis (TGA)

4. Isothermal Titration Calorimetry (ITC)

5. Dynamic-Static-Electrophoretic Light Scattering

6. Neutron Scattering Techniques

7. Transmission Electron Microscopy

8. Atomic Force Microscopy

9. Confocal Microscopy

10. Analytical Techniques (i.e. HPLC, BET, etc.)

11. Optical spectroscopic techniques (PL, XRD, XPS, etc.)

12. Optical spectroscopic techniques (UV-Vis, FTIR, Raman, etc.)

13. Statistical and AI-Based Optimization Techniques (Taguchi Method, Machine Learning, Data Mining, etc.)

14. Nanotoxicity studies

15. The usage of the techniques of the characterization of nanoparticulate systems in the pharmaceutical industry

16. Characterization techniques for the design and the development nanosimilars and “off-patent” nanomedicines

17. The requirements for the characterization of the nanoparticulate systems from the regulatory authorities

18. Conclusions and future perspectives

Product details

Edition: 1
Latest edition
Published: December 1, 2026
Language: English

About the editors

Natassa Pippa

Dr. Natassa Pippa is an Assistant Professor in the Department of Pharmaceutical Technology at the National and Kapodistrian University of Athens, Greece. Her research focuses on pharmaceutical technology, specifically the design and development of nanoparticles, such as liposomes, micelles, and hydrogels, for drug delivery and targeting. She completed her master's degree in "Industrial Pharmacy" in 2012 and her PhD thesis in 2015 at the Department of Pharmacy, University of Athens.

Dr. Pippa has been awarded three scholarships for postdoctoral research in Greece and France. She has collaborated with the pharmaceutical industry in the development of drugs, cosmetics, and nutritional supplements.

Affiliations and expertise

Assistant Professor, National and Kapodistrian University of Athens, Greece

Nefeli Lagopati

Dr. Nefeli Lagopati is an Assistant Professor in Biology-Nanomedicine at the Department of Biology in the School of Medicine at the National & Kapodistrian University of Athens (NKUA), Greece. She completed her PhD at the Faculty of Biology in the School of Science, NKUA, in collaboration with the Laboratory for the Research on Cell & Matrix Biochemistry/Pathobiology at the Institute of Biosciences and Applications, and the Laboratory of Nanotechnology processes for solar energy conversion and environmental protection at the Institute of Nanoscience and Nanotechnology, National Center for Scientific Research "Demokritos".

Dr. Lagopati's research interests include the multidisciplinary field of nanomedicine in cancer treatment. Her specific focus is on the apoptotic effect induced by oxidative stress and the anticancer activity of nanomaterials. Over the past decade, she has dedicated her work to the development of drug delivery systems, biomaterials, hybrid materials, cellular senescence, oxidative stress molecular mechanisms, radiobiology, Monte Carlo simulation, dosimetry in nuclear medicine, and more recently, projects related to SARS-CoV-2.