Jantunen, Heli
Heli Jantunen Finnish researcher and inventor
Jantunen, Heli, 1958-
VIAF ID: 8106148451588315970003 (Personal)
Permalink: http://viaf.org/viaf/8106148451588315970003
Preferred Forms
- 100 0 _ ‡a Heli Jantunen ‡c Finnish researcher and inventor
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- 100 1 _ ‡a Jantunen, Heli
- 100 1 _ ‡a Jantunen, Heli
- 100 1 _ ‡a Jantunen, Heli
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4xx's: Alternate Name Forms (2)
Works
Title | Sources |
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3D printed dielectric ceramic without a sintering stage | |
Boosting Photovoltaic Output of Ferroelectric Ceramics by Optoelectric Control of Domains | |
Carbon-Nanotube-Based Electrical Brush Contacts | |
Ceremic upside-down composites for future electronics | |
Dielectric properties of upside-down SrTiO[sub]3/Li[sub]2MoO[sub]4 composites Fabricated at room temperature | |
Dual Polarized Dual Fed Vivaldi Antenna for Cellular Base Station Operating at 1.7–2.7 GHz | |
The effect of BaTiO[sub]3 particle shape on complex permittivity of 0.98MgTiO[sub]3-0.02BaTiO[sub]3 composite powders at GHz frequencies | |
Effect of processing route on thermomechanical properties of low temperature firing ceramic for electronic packaging | |
Electrical transport and field-effect transistors using inkjet-printed SWCNT films having different functional side groups | |
Electrical transport through single-wall carbon nanotube-anodic aluminum oxide-aluminum heterostructures | |
Electrocaloric effect in a ferroelectric Pb(Zn[sub](1/3)Nb[sub](2/3))O[sub]3-PbTiO[sub]3 single crystal | |
Energy Harvesting Research: The Road from Single Source to Multisource | |
Ferroelectric Oxides for Solar Energy Conversion, Multi-Source Energy Harvesting/Sensing, and Opto-Ferroelectric Applications | |
A Game Changer: A Multifunctional Perovskite Exhibiting Giant Ferroelectricity and Narrow Bandgap with Potential Application in a Truly Monolithic Multienergy Harvester or Sensor | |
How can we fabricate passive electronic components in a greener way | |
Inkjet printing of electrically conductive patterns of carbon nanotubes. | |
Lightweight Hierarchical Carbon Nanocomposites with Highly Efficient and Tunable Electromagnetic Interference Shielding Properties | |
Lightweight porous silica foams with extreme-low dielectric permittivity and loss for future 6G wireless communication technologies | |
Low Temperature Sintering and Dielectric Properties of Alumina-Filled Glass Composites for LTCC Applications | |
Manufacturing of prestressed piezoelectric unimorphs using a postfired biasing layer. | |
Microwave characterization of printed inductors with ferrimagnetic BaFe[sub](12)O [sub](19) composite layers | |
Microwave materials and applications | |
Microwave properties of sphere-, flake-, and disc-shaped BaFe[sub](12)O[sub](19) nanoparticle inks for high-frequency applications on printed electronics | |
Mobile and immobile boundaries in ferroelectric films | |
Multilayer Functional Tapes Cofired at 450 °C: Beyond HTCC and LTCC Technologies. | |
Nitrogen-doped anatase nanofibers decorated with noble metal nanoparticles for photocatalytic production of hydrogen. | |
Patterned immobilization of antibodies within roll-to-roll hot embossed polymeric microfluidic channels | |
Perovskite ferroelectric tuned by thermal strain | |
A piezoelectric active mirror suspension system embedded into low-temperature cofired ceramic | |
Resonator-enhanced radiating cable for UHF RFID readers | |
Room-temperature-densified Li2MoO4ceramic patch antenna and the effect of humidity | |
Room temperature fabrication of strontium titanate ceramics | |
Spinel-olivine microwave dielectric ceramics with low sintering temperature and high quality factor for 5 GHz wi-fiantennas | |
Stretchable and Washable Strain Sensor Based on Cracking Structure for Human Motion Monitoring | |
Thermoplastic Laminate and Cordierite/Indialite Glass-Ceramic Hybrid Package for 15-GHz Operated Antennas | |
ULTCC Glass Composites Based on Rutile and Anatase with Cofiring at 400 °C for High Frequency Applications | |
Ultra-Low-Temperature Cofired Ceramic Substrates with Low Residual Carbon for Next-Generation Microwave Applications | |
Ultrasensitive H2S gas sensors based on p-type WS2 hybrid materials | |
University of Oulu website, viewed December 12, 2016: | |
Volume crystallization and microwave dielectric properties of indialite/ cordierite glass by TiO[sub]2 addition |