Add to ORKGWe propose and examine an enhanced version of a multi-band metamaterial absorber for an energy harvesting application. The numerical results of the multi-band absorption characteristics of no-load conditions are presented and compared with the loading conditions. At most % 50 of the incoming wave energy whose correspondence is 0.25 Watt is converted to real power at the resistive loads at 5.88 GHz by the usage of 2000 ohms loads. In order to evaluate the harvesting efficiency, three different types of efficiency definitions are presented and calculated
A novel metamaterial absorber structure is designed and characterized for microwave energy harvestin...
This paper introduces a metamaterial energy harvester that is compact, highly efficient, and capable...
We present the design, characterization, theoretical and experimental verification of a tunable perf...
International audienceIn this paper, we demonstrate the feasibility of harvesting electromagnetic wa...
International audienceIn this paper, we demonstrate the feasibility of harvesting electromagnetic wa...
An electromagnetic (EM) energy harvesting application based on metamaterials is introduced. This app...
A high performance metamaterial device for electromagnetic energy harvesting is presented. The unit ...
A new metamaterial absorber structure is designed and characterized both numerically and experimenta...
A new metamaterial absorber is designed and characterized numerically for the harvesting of solar en...
This work was aimed to design a metamaterial energy harvester with integrated energy harvesting and ...
We present the design, characterization, theoretical and experimental verification of a tunable perf...
An electromagnetic (EM) energy harvesting application based on metamaterial absorber (MA) is introdu...
We propose the design of a multiband absorber based on multi-layered square split ring (MSSR) struct...
A novel metamaterial absorber structure is designed and characterized for microwave energy harvestin...
This paper presents the comprehensive analysis of the sub-microwave, radio frequency band resonant m...
A novel metamaterial absorber structure is designed and characterized for microwave energy harvestin...
This paper introduces a metamaterial energy harvester that is compact, highly efficient, and capable...
We present the design, characterization, theoretical and experimental verification of a tunable perf...
International audienceIn this paper, we demonstrate the feasibility of harvesting electromagnetic wa...
International audienceIn this paper, we demonstrate the feasibility of harvesting electromagnetic wa...
An electromagnetic (EM) energy harvesting application based on metamaterials is introduced. This app...
A high performance metamaterial device for electromagnetic energy harvesting is presented. The unit ...
A new metamaterial absorber structure is designed and characterized both numerically and experimenta...
A new metamaterial absorber is designed and characterized numerically for the harvesting of solar en...
This work was aimed to design a metamaterial energy harvester with integrated energy harvesting and ...
We present the design, characterization, theoretical and experimental verification of a tunable perf...
An electromagnetic (EM) energy harvesting application based on metamaterial absorber (MA) is introdu...
We propose the design of a multiband absorber based on multi-layered square split ring (MSSR) struct...
A novel metamaterial absorber structure is designed and characterized for microwave energy harvestin...
This paper presents the comprehensive analysis of the sub-microwave, radio frequency band resonant m...
A novel metamaterial absorber structure is designed and characterized for microwave energy harvestin...
This paper introduces a metamaterial energy harvester that is compact, highly efficient, and capable...
We present the design, characterization, theoretical and experimental verification of a tunable perf...