Her Nanotechnology study has been linked to subjects such as Carbon nanotube and Nanoparticle. Her research on Carbon nanotube often connects related topics like Chemical engineering. Her study deals with a combination of Chemical engineering and Metallurgy. Her research combines Ceramic and Metallurgy. She conducts interdisciplinary study in the fields of Ceramic and Sintering through her works. With her scientific publications, her incorporates both Nanoparticle and Nanotechnology. Her Electrical engineering research is linked to Photovoltaic system and Piezoelectricity, among other subjects. Her Photovoltaic system study frequently draws connections between adjacent fields such as Electrical engineering. Heli Jantunen merges Piezoelectricity with Dielectric in her research.
Composite material and Piezoelectricity are frequently intertwined in her study. She merges Optoelectronics with Electrical engineering in her study. Her work blends Electrical engineering and Optoelectronics studies together. Heli Jantunen incorporates Dielectric and Ferroelectricity in her studies. While working in this field, she studies both Ferroelectricity and Dielectric. She undertakes multidisciplinary studies into Ceramic and Sintering in her work. Heli Jantunen carries out multidisciplinary research, doing studies in Sintering and Ceramic. Heli Jantunen integrates Telecommunications with Microwave in her research. She undertakes interdisciplinary study in the fields of Microwave and Telecommunications through her works.
Many of her studies on Composite material involve topics that are commonly interrelated, such as Elastomer. Her Optoelectronics study frequently draws connections between adjacent fields such as Terahertz radiation. Much of her study explores Terahertz radiation relationship to Optoelectronics. Dielectric and Piezoelectric coefficient are frequently intertwined in her study. She integrates several fields in her works, including Piezoelectric coefficient and Ferroelectricity. Heli Jantunen combines Ferroelectricity and Lead zirconate titanate in her research. Lead zirconate titanate and Dielectric are two areas of study in which she engages in interdisciplinary work. Her research on Composite number often connects related areas such as Composite material. Her work blends Ceramic and Tape casting studies together.
A component of her Ceramic study involves Cordierite and Glass-ceramic. Her Chemical engineering study frequently draws connections to other fields, such as Crystallization and Rutile. Her study brings together the fields of Chemical engineering and Crystallization. As part of her studies on Optoelectronics, she often connects relevant areas like Terahertz radiation. Her Terahertz radiation study frequently draws connections to adjacent fields such as Optoelectronics. Heli Jantunen undertakes multidisciplinary studies into Dielectric and Dielectric loss in her work. She incorporates Dielectric loss and Dissipation factor in her studies. Heli Jantunen integrates Dissipation factor and Permittivity in her studies. Her study deals with a combination of Permittivity and Relative permittivity.
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Low loss dielectric materials for LTCC applications: a review
M. T. Sebastian;H. Jantunen.
International Materials Reviews (2008)
Inkjet Printing of Electrically Conductive Patterns of Carbon Nanotubes
Krisztián Kordás;Tero Mustonen;Géza Tóth;Heli Jantunen.
Low-loss dielectric ceramic materials and their properties
M. T. Sebastian;R. Ubic;H. Jantunen.
International Materials Reviews (2015)
Compositions of MgTiO3–CaTiO3 ceramic with two borosilicate glasses for LTCC technology
Heli Jantunen;Risto Rautioaho;Antti Uusimäki;Seppo Leppävuori.
Journal of The European Ceramic Society (2000)
Polymer–Ceramic Composites of 0–3 Connectivity for Circuits in Electronics: A Review
Mailadil T. Sebastian;Heli Jantunen.
International Journal of Applied Ceramic Technology (2010)
Low temperature co-fired ceramics with ultra-low sintering temperature: A review
Mailadil Thomas Sebastian;Hong Wang;Heli Jantunen.
Current Opinion in Solid State & Materials Science (2016)
Electrocaloric characteristics in reactive sintered 0.87Pb(Mg1∕3Nb2∕3)O3–0.13PbTiO3
Juha Hagberg;Antti Uusimäki;Heli Jantunen.
Applied Physics Letters (2008)
Dielectric properties of BST/polymer composite
Tao Hu;Jari Juuti;Heli Jantunen;Taisto Vilkman.
Journal of The European Ceramic Society (2007)
Energy Harvesting Research: The Road from Single Source to Multisource.
Yang Bai;Heli Jantunen;Jari Juuti.
Advanced Materials (2018)
Nitrogen-Doped Anatase Nanofibers Decorated with Noble Metal Nanoparticles for Photocatalytic Production of Hydrogen
Ming-Chung Wu;Jussi Tapio Hiltunen;András Sápi;Anna Avila.
ACS Nano (2011)
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