Fevzihan Basarir

Full researcher profile
https://research.aalto.fi/...
Sähköposti
[email protected]
Postiosoite
Kemistintie 1 02150 Espoo Finland
Puhelinnumero
+358504381184

Tutkimusryhmät

  • Multifunctional Materials Design, Postdoctoral Researcher

Julkaisut

Edible and Biodegradable Wearable Capacitive Pressure Sensors: A Paradigm Shift toward Sustainable Electronics with Bio-Based Materials

Fevzihan Basarir, Yazan Al Haj, Fangxin Zou, Swarnalok De, An Nguyen, Alexander Frey, Ijlal Haider, Veikko Sariola, Jaana Vapaavuori 2024 Advanced Functional Materials

Bio‐Templated Silver Nanopatterns for Photothermal and Antifogging Coatings

Swarnalok De, Hoang M. Nguyen, Fangxin Zou, Fevzihan Basarir, Maryam Mousavi, Kristiina Mäkinen, Mauri A. Kostiainen, Jaana Vapaavuori 2024 Advanced Materials Interfaces

A Low-Cost and Do-It-Yourself Pressure Sensor Enable Human Motion Detection and Human–Machine Interface Applications

Mari Heikkinen, Fevzihan Basarir, Kim Miikki, Yazan Al Haj, Mithila Mohan, Jaana Vapaavuori 2024 Advanced Sensor Research

Integrative Fabrication of Semiconducting Fibers within 2D/3D Textiles

Zahra Madani, Matteo Iannacchero, Fevzihan Basarir, Jaana Vapaavuori 2024 Semiconducting Fibers

Silver Nanowire-based Capacitive Type Pressure and Strain Sensors for Human Motion Monitoring

Fevzihan Basarir, Hamidreza Daghigh Shirazi, Zahra Madani, Jaana Vapaavuori 2023 Nanowires

Controlling the Self-Assembly of Hierarchical PS-b-P4VP Structures Prepared by Dip-Coating and Emulsion Breath Figure Techniques

Hoang M. Nguyen, Ariane Mader, Swarnalok De, Fevzihan Basarir, Jaana Vapaavuori 2023 ChemistrySelect

Perspective about Cellulose-Based Pressure and Strain Sensors for Human Motion Detection

Fevzihan Basarir, Joice Jaqueline Kaschuk, Jaana Vapaavuori 2022 Biosensors

Ultra-long silver nanowires prepared via hydrothermal synthesis enable efficient transparent heaters

Fevzihan Basarir, Swarnalok De, Hamidreza Daghigh Shirazi, Jaana Vapaavuori 2022 Nanoscale Advances

Transparent conductive electrode based on LBL deposition of graphene oxide and copper nanowires

B. Tugba Camic, Jaana Vapaavuori, Fevzihan Basarir 2022 Materials Letters