Published paper

More than one hundred scientific papers have been published

Main significant papers:

X-Band microwave characterization of carbon-based nanocomposite material, absorption capability comparison and RAS design simulation

Broadband Electromagnetic Absorbers Using Carbon Nanostructure-Based Composites

Synthesis and electromagnetic characterization of frequency selective radar absorbing materials using carbon nanopowders

Optimization of Multilayer Shields Made of Composite Nanostructured Materials

Broadband electromagnetic characterization of carbon foam to metal contact

Reduction of satellite electromagnetic scattering by carbon nanostructured multilayers

Electromagnetic shielding of thermal protection system for hypersonic vehicles

Electromagnetic characterization and shielding effectiveness of concrete composite reinforced with carbon nanotubes in the mobile phones frequency band

Measurement of Electromagnetic Field Attenuation by Building Walls in the Mobile Phone and Satellite Navigation Frequency Bands

Determination of the electrical conductivity of carbon/carbon at high microwave frequencies

Tunable nanostructured composite with built-in metallic wire-grid electrode

Ballistic and electromagnetic shielding behaviour of multifunctional Kevlar fiber reinforced epoxy composites modified by carbon nanotubes

Temperature, atomic oxygen and outgassing effects on dielectric parameters and electrical properties of nanostructured composite carbon-based materials

Electromagnetic properties of carbon nanotube reinforced concrete composites for frequency selective shielding structures

A new technology for production of high thickness carbon/carbon composites for launchers application

Electromagnetic characterization of advanced nanostructured materials and multilayer design optimization for metrological and low radar observability applications

Electromagnetic absorption properties of spacecraft and space debris

Matter's Electromagnetic Signature Reproduction by Graded-Dielectric Multilayer Assembly

Electromagnetic Shielding of Building Walls: From Roman times to the present age.

Electromagnetic Shielding of Building Walls: From Roman times to the present age.

MODELING OF RADAR ABSORBING MATERIALS USING WINNING PARTICLE OPTIMIZATION APPLIED ON ELECTRICALLY CONDUCTIVE NANOSTRUCTURED COMPOSITE MATERIAL

Main significant conferences:

Carbon based nanomaterial composites in RAM and microwave shielding applications

Advanced concrete materials for EMI reduction in protected environment and IEMI threats suppression

Shielding effectiveness statistical evaluation of random concrete composites

Shielding effectiveness of carbon nanotube reinforced concrete composites by reverberation chamber measurements

Carbon micro- and nano-structured multilayer composites for microwave metrological design

Modeling and measuring of microwave absorbing and shielding nanostructured materials

Synthesys of radar absorbing materials for stealth aircraft by using nanomaterials and evolutionary computation

Railgun Application for High Energy Impact Testing of Nano-Reinforced Kevlar-Based Composite Materials

Radar Absorbing Materials (RAM), stealth satellite

Radar Absorbing Materials (RAM), stealth satellite

Nanomaterials in Radar Absorbing Material Design using Particle Swarm Optimization and Genetic Algorithm

Nanomaterials in Radar Absorbing Material Design using Particle Swarm Optimization and Genetic Algorithm

Main significant Book and Boock-Chapter:

Radar Absorbing Materials and Microwave Shielding Structures Design By using Multilayer Composite Materials, Nanomaterials and Evolutionary Computation

Radar Absorbing Materials and Microwave Shielding Structures Design By using Multilayer Composite Materials, Nanomaterials and Evolutionary Computation

Impact Response of Nanofluid-Reinforced Antiballistic Kevlar Fabrics

Electromagnetic characterization of composite materials and microwave absorbing modeling

Fully Configurable Electromagnetic Wave Absorbers by Using Carbon Nanostructures

Spectroscopic Methods for Nanomaterials Characterization (ISBN: 9780323461405). Book-Chapter: Electromagnetic Characterisation of Materials by Vector Network AnalyzerExperimental Set-up