Photo of Burak Gerislioglu, Ph.D.

Burak Gerislioglu, Ph.D.

Patent Agent

Education

Ph.D., Applied Physics, Rice University

M.S., Applied Physics, Rice University

M.S., Electrical Engineering, Florida International University

B.S., Electrical and Electronics Engineering, Turgut Ozal University

Honors

IOP Trusted Reviewer (2023)

Recipient of MDPI Nanomaterials Outstanding Reviewer Award (2020)

Guest Editor for MDPI Nanomaterials

Guest Editor for MDPI Biosensors

Member of Reviewer Board of MDPI Nanomaterials

Member of Topical Advisory Panel for the “Solar Energy and Solar Cells” Section of MDPI Nanomaterials

Bar Admissions

United States Patent and Trademark Office

Profile

Dr. Burak Gerislioglu is a patent agent with a robust background in electrical engineering and applied physics, specializing in patent preparation and prosecution.  His extensive experience encompasses fields such as computer architecture, information security, data management, artificial intelligence, and optical/photonic devices.

Burak earned his Ph.D. and a second M.S. in applied physics from Rice University, focusing his research on theoretical and experimental light-matter interactions to develop next-generation optical instruments.  He also holds an M.S. in electrical engineering from Florida International University, where he researched novel metastructures for bio/chemical sensing and communication.  His B.S. in Electrical & Electronics Engineering from Turgut Ozal University involved research on phase-change materials for memory applications and active battery balancing topologies for hybrid systems.

Patents:

  1. A sensor platform based on toroidal resonances for rapid detection of biomolecules, U.S. Patent No: 10,288,563 (2019)
  2. Phase-change material based reconfigurable antenna, U.S. Patent No: 9,923,267 (2018)

Publications

Publications

Select Publications Include:

1. A quasi-bound states in the continuum dielectric metasurface-based antenna-reactor photocatalyst, Nano Letters (2024)

2. Plasmonic gadolinium oxide nanomatryoshkas: Bifunctional magnetic resonance imaging enhancers for photothermal cancer therapy, PNAS Nexus (2022)

3. Towards scalable plasmonic Fano-resonant metasurfaces for colorimetric sensing, Nanotechnology (2022)

4. Photonic and plasmonic metasensors, Laser & Photonics Reviews (2022)

5. Deep- and vacuum-ultraviolet metaphotonic light sources, Materials Today (2021)

6. Functionalized terahertz plasmonic metasensors: Femtomolar-level detection of SARS-CoV-2 spike proteins, Biosensors and Bioelectronics (2021)

7. Toroidal metaphotonics and metadevices, Laser & Photonics Reviews (2020)

8. Electrically driven hot-carrier generation and above-threshold light emission in plasmonic tunnel junctions, Nano Letters (2020)

9. Monolithic metal dimer-on-film structure: New plasmonic properties introduced by the underlying metal, Nano Letters (2020)

10. Terahertz plasmonics: The rise of toroidal metadevices towards immunobiosensings, Materials Today (2020)

11. The role of Ge2Sb2Te5 in enhancing the performance of functional plasmonic devices, Materials Today Physics (2020)

12. Infrared plasmonic photodetectors: The emergence of high photon yield toroidal metadevices, Materials Today Chemistry (2019)

13. Demonstration of robust plexcitonic coupling in organic molecules-mediated toroidal meta-atoms, Advanced Optical Materials (2019)

14. Toroidal dipole-enhanced third harmonic generation of deep ultraviolet light using plasmonic meta-atoms, Nano Letters (2019)

15. Tunable plasmonic toroidal terahertz metamodulator, Physical Review B (2018)

16. Extreme sensitive metasensor for targeted biomarkers identification using colloidal nanoparticles-integrated plasmonic unit cells, Biomedical Optics Express (2018)

17. VO2-based reconfigurable antenna platform with addressable microheater matrix, Advanced Electronic Materials (2017)

18. Rapid detection of infectious envelope proteins by magnetoplasmonic toroidal metasensors, ACS Sensors (2017)

19. Optical switching using transition from dipolar to charge transfer plasmon modes in Ge2Sb2Te5 bridged metallodielectric dimers, Scientific Reports (2017)

20. Extracting the temperature distribution on a phase-change memory cell during crystallization, Journal of Applied Physics (2016)