Jovana Stanojev
Dr. Jovana Stanojev is a Senior Researcher at the Center for Sensing Technologies, BioSense Institute, University of Novi Sad. She holds a degree in Materials Engineering at the Faculty of Technology Novi Sad and currently has a role as Head of Laboratories at the BioSense Institute. She obtained her PhD in December 2020, with a dissertation entitled “Development of an Uncooled Infrared Detector Based on Lead Selenide.”
Her current research focuses on the development of sensors, such as infrared sensors, optical sensors, as well as on the development of 2D nanomaterials and carbon-based materials. She is actively involved in numerous national and international research projects.
Dr. Stanojev has authored 15 scientific publications and has participated in numerous international conferences. Her research impact is reflected in an h-index of 8 and over 230 citations.
Center:
CST
Themes:
1. Carbon nanomaterials
2. Nanomembranes
3. Lead selenide based materials
4. FastMast – instrument for early detection of mastitis
5. Environmental monitoring applications
6. Medical and healthcare applications
7. Food Innovation and Health
8. Plant Wearable Systems
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. SHEALTHY- Non-Thermal physical technologies to preserve fresh and minimally processed fruit and vegetables
5. agROBOfood- Business-Oriented Support to the European Robotics and Agri-food Sector, towards a network of Digital Innovation Hubs in Robotics
6. Code: Re-farm – Consumer-driven demands to reframe farming systems
7. Development of 3D-printing functional materials and magnetic components prototyping
8. Development of plant-based edible microcarriers and scaffolds for use in cellular agriculture i.e. cultivated meat tissue engineering
9. EnviLife – Sustainable environmental monitoring and prediction of pollutants spread
10. Know4Nano
Publications:
- Stanojev J., Bajac B., Cvejic Z., Matovic J., Srdic V.V.Development of MWCNT thin film electrode transparent in the mid-IR range, Ceramics International, https://doi.org/10.1016/j.ceramint.2020.01.163
- Bajac B., Vukmirović J., Tripković Đ., Đurđic E., Stanojev J., Cvejić Ž., Škorić B., Srdić V. V.Structural characterization and dielectric properties of BaTiO3 thin films obtained by spin coating, Processing and Application of Ceramics 8 [4] 2014 (219-224)
- Stanojev J., Bajac B., Matovic J., Srdic V.V.Development of layer-by-layer assembled MWCNT transparent thin film electrode, NANO-DAY IV, December 11-14, 2019, Milano, Italy
- Stanojev J., Bajac B., Matovic J., Srdic V.V.Processing of nanostructured CNT-based thin film electrode, 13th Conference for Young Scientists in Ceramics, October 16-19, 2019, Novi Sad, Serbia
- Stanojev J., Bajac B., Matovic J., Srdic V.V.Fabrication of carbon-based electrodes transparent in UV/Vis and IR range, 5th Conference of the Serbian Society for Ceramic Materials, June 11-13, 2019, Belgrade, Serbia
- Dubourg, G., Prabhakaran, D., Dawson, H., Radonic, V., Joksović, S., Stanojev, J., & Homs Corbera, A. (2025). Novel design of biplanar electrodes in a multiwell plate for transepithelial electrical resistance measurement in 3D cell cultures. Sensors and Actuators A: Physical, 387, 116413. https://doi.org/10.1016/j.sna.2025.116413
Patent:
- Photovoltaic infrared radiation detector from IV-VI polycrystalline semiconductors