A detailed study of the dielectric behavior of printed capacitors is given, in which the dielectric consists of a thin (r 20–69. The used ink contains surface-modified Ba0.6Sr0.4TiO3 (BST), a polymeric crosslinking agent and a thermal initiator, which allows the immediate polymerization of the ink during printing, leading to homogenous layers. To validate the results of the calculated permittivities, different layer thicknesses of the dielectric are printed and the capacitances, as well as the loss factors, are measured. Afterwards, the exact layer thicknesses are determined with cross sectional SEM images of ion-etched samples. Then, the permittivities are calculated with the known effective area of the capacitors. Furthermore, the ink com...
Over the past decade, Additive Manufacturing (AM) has advanced as a novel manufacturing technique us...
A new nanocomposite dielectric ink has been developed by dispersing Ca2Nb3O10 nanosheets in acetone ...
The objective of this work is to demonstrate the feasibility of inkjet-printed passive components. A...
The preparation of fully inkjet printed capacitors containing ceramic/polymer composites as the diel...
This master‘s thesis deals with the use of the material printing method for fabrication of dielectri...
This paper investigates the dielectric characteristics of the material used to make capacitor in fus...
Parallel-plate capacitors were fabricated using a printed multi-layer structure in order to determin...
This paper presents fabrication of printed interdigital capacitors on a flexible and lightweight pol...
Abstract In this research a composite for printable capacitors using screen printed structures and l...
This work investigates several dielectric coatings, of different thicknesses, applied over metalized...
In this thesis, new all-printed capacitors are developed for the applications of energy storage, fil...
Abstract This paper presents the extraction of microwave properties of low-temperature cured inorga...
Inkjet printing (IJP) is an exciting new additive manufacturing technology that promises monolithic ...
Capacitance-voltage (C-V) behaviors of metal-polymer-silicon capacitors having inkjet-printed silver...
The deposition of a thin and uniform dielectric layer is required for high performance printed capac...
Over the past decade, Additive Manufacturing (AM) has advanced as a novel manufacturing technique us...
A new nanocomposite dielectric ink has been developed by dispersing Ca2Nb3O10 nanosheets in acetone ...
The objective of this work is to demonstrate the feasibility of inkjet-printed passive components. A...
The preparation of fully inkjet printed capacitors containing ceramic/polymer composites as the diel...
This master‘s thesis deals with the use of the material printing method for fabrication of dielectri...
This paper investigates the dielectric characteristics of the material used to make capacitor in fus...
Parallel-plate capacitors were fabricated using a printed multi-layer structure in order to determin...
This paper presents fabrication of printed interdigital capacitors on a flexible and lightweight pol...
Abstract In this research a composite for printable capacitors using screen printed structures and l...
This work investigates several dielectric coatings, of different thicknesses, applied over metalized...
In this thesis, new all-printed capacitors are developed for the applications of energy storage, fil...
Abstract This paper presents the extraction of microwave properties of low-temperature cured inorga...
Inkjet printing (IJP) is an exciting new additive manufacturing technology that promises monolithic ...
Capacitance-voltage (C-V) behaviors of metal-polymer-silicon capacitors having inkjet-printed silver...
The deposition of a thin and uniform dielectric layer is required for high performance printed capac...
Over the past decade, Additive Manufacturing (AM) has advanced as a novel manufacturing technique us...
A new nanocomposite dielectric ink has been developed by dispersing Ca2Nb3O10 nanosheets in acetone ...
The objective of this work is to demonstrate the feasibility of inkjet-printed passive components. A...