Vasa Radonić

Position:Assistant director for science

Academic Rank: Senior research associate in the field of technical / technological sciences, telecommunications and Information Technologies

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Dr Radonic received a PhD in electronics in 2010 at University of Novi Sad. He authored and co-authored 2 book chapters, 30 journal papers, more than 60 conference papers, 10 technical solutions, and has more than 440 citations. Dr Radonić was the project leader in four Serbian national projects, one project financed by European Bank for Research and Development, one Bilateral project between Serbia and Slovenia, project financed by Good Food Institute, USA and WP leader in one FP7 project–InnoSense and one H2020 project–ANTARES. He participates in a number of research FP6, FP7, H2020, COST, EUREKA, IPA projects. He is a member of IEEE and MAGEO (Microwaves in Agriculture, Environment and Earth Observation) groups and was a member of Technical Program Committees of EUROCON (Computer as Tool, 2015) conference, Salamanca, Spain and Sensordevices conference 2019, Nice, France. Steering committee member of the BioSense Institute 2015-2020, and the vice president of Scientific council of the BioSense Institute 2015-2020. From 2022, he is the assistant director for science. Reviewer in different scientific journals: Scientific Reports, Lab-on-Chip, IEEE Sensors Journal, MDPI Sensors, MDPI Electronics, Sensors and Actuators B, IEEE Wireless and component letters, Electronic letters, etc. The main expertise of Dr Radonic is microfluidics, sensors development (microwave, optical, microfluidic sensors and biosensors), electronic, RF and microwave passive components (filters, coupler, diplexer, etc.), antennas and RFID systems, periodical and artificial materials, fabrication technologies, measurements and characterization.

Center:

CST

Themes:

1. Microfluidics

2. Biosensors

Projects:

1. EUREKA WaQuMoS – Water Quality Monitoring System with Multi-Parameter IoT Sensor Nodes for Proactive Water Resource Management, 2019-2022, E!13044

2. CISTEM- Heart on chip based on induced pluripotent stem cell technology for personalized medicine

3. IPANEMA – Integration of PAper-based Nucleic acid testing mEthods into Microfluidic devices for improved biosensing Applications

4. REALSENSE1 – Monitoring of cell culture parameters using sensors for biomass and nutrients/metabolites in media: Lab-on-a-Chip (LOC) approach, 2019-2021; Good Food Institute 2018 Competitive Grant Program

5. REALSENSE2- FROM LAB-ON-A-CHIP TO CUSTOM BIOREACTOR: SCALE UP MODELING STUDY, 2019-2021; Good Food Institute 2018 Competitive Grant Program

6. NANOFACTS – Networking Activities for Nanotechnology-Facilitated Cancer Theranostics

7. DIATOMIC- Digital Innovation Hubs boosting European Microelectronics Industry

8. KATANA – Emerging industries as key enablers for the adoption of advanced technologies in the agrifood sector

9. IoF2020 – Internet of Food and Farm 2020

10. Smart-AKIS- European Agricultural Knowledge and Innovation Systems (AKIS) towards innovation-driven research in Smart Farming Technology

11. Iron reduction filtration unit for agriculture irrigation

12. Development of 3D-printing functional materials and magnetic components prototyping

13. MicoLabAptaSens- Microfluidic Lab-on-a-Chip platform for fast detection of pathogenic bacteria using novel electrochemical aptamer-based biosensors

Publications:

M. Pavlovic, K.R.R.B. Heman, S. Djalali, M. Vranes, V. Radonic, L. Zeininger: “Facile monitoring of water hardness levels using responsive complex emulsions,” Analytical Chemistry, 2021, Vol. 93, No. 27, pp. 9390–9396. IF: 6.785, doi: 10.1021/acs.analchem.1c00868
I. Bobrinetskiy, M. Radovic, F. Rizzotto, P. Vizzini, S. Jaric, Z. Pavlovic, V. Radonic, M. Vesna Nikolic, J. Vidic: “Advances in Nanomaterials-Based Electrochemical Biosensors for Foodborne Pathogen Detection,” Nanomaterials, Sep 2021, IF 5.346, DOI: 10.3390/nano11102700
N. Janković, S. Ilić, V. Bengin, S. Birgermajer, V. Radonić, A. Alù: “Acoustic spoof surface plasmon polaritons for filtering, isolation and sensing,” Results in Physics, Vol. 28, pp. 104645, 2021. doi: 10.1016/j.rinp.2021.104645, IF 4.476
I. Podunavac, V. Radonic, V. Bengin, N. Jankovic: “Microwave Spoof Surface Plasmon Polariton-Based Sensor for Ultrasensitive Detection of Liquid Analyte Dielectric Constant,” Sensors, Vol. 21, No. 16, pp. 5477, 2021. doi: https://doi.org/10.3390/s21165477, IF 3.576
M Djisalov, T. Knežić, T, I. Podunavac, K. Živojević, V. Radonić, N. Knežević, I. Bobrinetskiy, I. Gadjaski: “Cultivating Multidisciplinarity: Manufacturing and Sensing Challenges in Cultured Meat Production,” Biology, Vol. 10, No. 204, 2021, doi.org/10.3390/biology10030204, IF: 3.796.
S. Kojic, G. Stojanovic, V. Radonic: “Novel Cost-Effective Microfluidic Chip Based on Hybrid Fabrication and Its Comprehensive Characterization,” Sensors, Vol. 19, No. 7, pp. 1719, 2019, DOI: 10.3390/s19071719, IF: 3.275
J. Vidic, P. Vizzini, M. Manzano, D. Kavanaugh, N. Ramarao, M. Zivkovic, V. Radonic, N. Knezevic, I. Giouroudi, and I. Gadjanski: “Point-of-Need DNA Testing for Detection of Foodborne Pathogenic Bacteria,” Sensors (Basel). Vol. 19, No. 5, pp. 1100, 2019, DOI: 10.3390/s19051100, IF: 3.275

Patent:

- Planar electrode for biosensors realized using repetitive fractal geometry