Inventor
BIRIS ALEXANDRU S
US43 patents
⚠️ This page may combine multiple inventors who share the name “BIRIS ALEXANDRU S”. Patents are grouped by organization below to help distinguish them — per-person disambiguation is on the roadmap.
UNIV ARKANSAS
27 patentsUS6911593B2Jun 28, 2005
Transparent self-cleaning dust shield
UNIV ARKANSAS102 citations95
US8936805B2Jan 20, 2015
Bone regeneration using biodegradable polymeric nanocomposite materials and applications of the same
UNIV ARKANSAS6 citations84
US10238496B2Mar 26, 2019
Bone regeneration using biodegradable polymeric nanocomposite materials and applications of the same
UNIV ARKANSAS3 citations73
US9968711B2May 15, 2018
Bone regeneration using biodegradable polymeric nanocomposite materials and applications of the same
UNIV ARKANSAS3 citations73
US9763788B2Sep 19, 2017
Bone regeneration using biodegradable polymeric nanocomposite materials and applications of the same
UNIV ARKANSAS3 citations73
US12099059B2Sep 24, 2024
Nanocomposites, methods of making same, and applications of same for multicolor surface enhanced Raman spectroscopy (SERS) detections
UNIV ARKANSAS2 citations72
US10830767B2Nov 10, 2020
Nanocomposites, methods of making same, and applications of same for multicolor surface enhanced raman spectroscopy (SERS) detections
UNIV ARKANSAS2 citations72
US9784737B2Oct 10, 2017
Nanocomposites, methods of making same, and applications of same for multicolor surface enhanced Raman spectroscopy (SERS) detections
UNIV ARKANSAS3 citations72
US11119099B2Sep 14, 2021
Nanocomposites and methods of making same
UNIV ARKANSAS2 citations69
US9810687B2Nov 7, 2017
Nanocomposites and methods of making same
UNIV ARKANSAS3 citations69
US11016089B2May 25, 2021
Nanocomposites and nanoagents for detection and treatment of a target of interest and methods of making and using same
UNIV ARKANSAS2 citations68
US9068283B2Jun 30, 2015
Strain sensors, methods of making same, and applications of same
UNIV ARKANSAS5 citations68
US9675078B2Jun 13, 2017
Method of delivery of bio-active agents to plant cells by using nano-sized materials as carriers
UNIV ARKANSAS2 citations64
US9427497B2Aug 30, 2016
Bone regeneration using biodegradable polymeric nanocomposite materials and applications of the same
UNIV ARKANSAS1 citations63
US9364587B2Jun 14, 2016
Bone regeneration using biodegradable polymeric nanocomposite materials and applications of the same
UNIV ARKANSAS1 citations63
US12467920B2Nov 11, 2025
Nanocomposites and nanoagents for detection and treatment of a target of interest and methods of making and using same
UNIV ARKANSAS0 citations61
US12174181B2Dec 24, 2024
Nanocomposites and methods of making same
UNIV ARKANSAS0 citations59
US8013992B2Sep 6, 2011
Methods of fabricating surface enhanced raman scattering substrates
UNIV ARKANSAS4 citations59
US12201746B2Jan 21, 2025
Expandable bone and tissue regeneration system, and applications of same
UNIV ARKANSAS1 citations53
US11492272B2Nov 8, 2022
Magnetic, superhydrophobic and superoleophilic medium, synthesizing methods and applications of same
UNIV ARKANSAS1 citations53
US9399055B2Jul 26, 2016
Anti-cancer nanoparticle compositions and methods of use
UNIV ARKANSAS0 citations50
US10195228B2Feb 5, 2019
Multicomponent and biocompatible nanocomposite materials, methods of synthesizing same and applications of same
UNIV ARKANSAS0 citations47
US9637385B2May 2, 2017
Carbon nanotubes and methods of forming same at low temperature
UNIV ARKANSAS0 citations47
US9114134B2Aug 25, 2015
Multicomponent and biocompatible nanocomposite materials, methods of synthesizing same and applications of same
UNIV ARKANSAS0 citations47
US9700573B2Jul 11, 2017
Compositions comprising nanoparticles and apoptotic agents and methods of use
UNIV ARKANSAS0 citations44
US12097304B2Sep 24, 2024
Biocompatible structure for tissue regeneration and methods of making and using same
UNIV ARKANSAS0 citations43
US10390927B2Aug 27, 2019
Graft scaffold with plasmonic activity, and methods of making and using same
UNIV ARKANSAS0 citations42
BIRIS ALEXANDRU S
10 patentsUS8518420B2Aug 27, 2013
Enhanced bone cells growth and proliferation on TiO2 nanotubular substrates treated by radio-frequency plasma discharge
BIRIS ALEXANDRU S7 citations84
US8697181B2Apr 15, 2014
Multifunctional Fe3O4 cored magnetic-quantum dot fluorescent nanocomposites for RF nano-hyperthermia of cancer cells
BIRIS ALEXANDRU S4 citations70
US8692716B2Apr 8, 2014
Nano and micro based antennas and sensors and methods of making same
BIRIS ALEXANDRU S5 citations65
US8576394B2Nov 5, 2013
Methods of fabricating surface enhanced raman scattering substrates
BIRIS ALEXANDRU S4 citations59
US8741318B2Jun 3, 2014
Multicomponent and biocompatible nanocomposite materials, methods of synthesizing same and applications of same
BIRIS ALEXANDRU S1 citations57
US8337951B2Dec 25, 2012
Superhydrophobic surface and method of forming same using high-aspect ratio nano-texture
BIRIS ALEXANDRU S5 citations57
US8153942B2Apr 10, 2012
Methods of making horizontally oriented long carbon nanotubes and applications of same
BIRIS ALEXANDRU S2 citations57
US9074187B2Jul 7, 2015
Nanostructural materials that increase mineralization in bone cells and affect gene expression through miRNA regulation and applications of same
BIRIS ALEXANDRU S2 citations50
US8304302B2Nov 6, 2012
Photovoltaic device using single wall carbon nanotubes and method of fabricating the same
BIRIS ALEXANDRU S0 citations45
US9198934B2Dec 1, 2015
Compositions comprising nanoparticles and apoptotic agents and methods of use
BIRIS ALEXANDRU S0 citations44
KHODAKOVSKAYA MARIYA V
3 patentsUS9364004B2Jun 14, 2016
Method of using carbon nanotubes to affect seed germination and plant growth
KHODAKOVSKAYA MARIYA V1 citations56
US10645933B2May 12, 2020
Method of using carbon nanotubes to affect seed germination and plant growth
KHODAKOVSKAYA MARIYA V0 citations45
US10244761B2Apr 2, 2019
Method of using carbon nanotubes to affect seed germination and plant growth
KHODAKOVSKAYA MARIYA V0 citations45