Institutionen för kemi och materialvetenskap

Multifunktionell materialdesign

Vårt yttersta mål är att kombinera flera funktioner i samma material genom supramolekylär kemi och utforma hierarkiska strukturer.
MMD webpage main image. GIF image by Aalto University, Giulnara Launonen

Aktuellt:

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Ta del av de nya hedersdoktorernas syn på framtidens teknologitrender.

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Students looking at a microscope smiling

Högskolan för kemiteknik

Vid Högskolan för kemiteknik kombinerar vi naturvetenskap med teknik på ett unikt sätt.

Forskningsområden och forskargruppsmedlemmar

(på engelska)

Beakers / Photo by Aalto University, Aleksi Poutanen

MMD research focuses

Multifunctional Materials Design research group (MMD)

Department of Chemistry and Materials Science
MMD research group 20220615_2.jpg

MMD team

Multifunctional Materials Design: research group members

Department of Chemistry and Materials Science

Våra projekt:

(på engelska)

Beyond e-Textiles project

Nordic network on smart light-conversion textiles beyond electric circuits

Beyond e-Textiles webpage, main image. Image by Aalto University, Giulnara Launonen, Maija Vaara, Mithila Mohan

AIyarn project (Bioinnovation)

AI-guided biohybrid assembly platform for e-textiles

AIyarn project main image. Photo by Aalto University / Matteo Iannacchero, Maija Vaara

EARMetal project

Electrochemically-Assisted Aqueous Reduction of Waste Streams for Metals Recovery and Functional Surfaces

EARMetal webpage, main image. Photo by Aalto University, Maija Vaara, Mithila Mohan

MMD FinnCERES: Energy

MMD projects funded by FinnCERES (theme Energy)

MMD FinnCERES projects main image. Photo by Aalto University / Mithila Mohan, Maija Vaara

MMD FinnCERES: Acoustics

MMD projects funded by FinnCERES (sub-theme Acoustics)

Measurement of how sound waves bend towards the absorption material. Photo by Aalto University, Tapio Lokki

ModelCom project

Autonomously adapting and communicating modular textiles

ModelCom webpage, main image, nylon yarn helix. Photo by Aalto University, Maija Vaara

SUBSTAINABLE project

Multifunctional, high performance cellulose-based substrates for photovoltaics and optoelectronics

SUBSTAINABLE webpage, main image. Photo by Aalto University, Maija Vaara, Mithila Mohan

SUPER-WEAR project

Super-stretchable functionalized materials and fibers for third generation wearable technology

SUPER-WEAR webpage, main image. Photo by Aalto University, Maija Vaara, Mithila Mohan

WEARSENSNANO project

Continuous monitoring of hypothermia in elderly people by the novel integrated wearable sensor system based on cellulose hydrogel and metallic nanowires

WEARSENSNANO webpage, main image. Photo by Aalto University, Maija Vaara, Mithila Mohan

Kontaktinformation:

Professor Jaana Vapaavuori
Professor Jaana Vapaavuori

Postadress:
Institutionen för kemi och materialvetenskap, Aalto-universitetet, PB 16100, FI-00076 AALTO, Finland

Besöksadress:
Rum B209b, Kemistvägen 1, 02150 Esbo, Finland

Telefon (Entrétjänster): 
+358 50 384 1658

E-postadresser:
[email protected]

Senaste publikationer:

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

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

Acoustic Properties of Aerogels: Current Status and Prospects

Tatiana Budtova, Tapio Lokki, Sadeq Malakooti, Ameya Rege, Hongbing Lu, Barbara Milow, Jaana Vapaavuori, Stephanie Vivod 2023 Advanced Engineering Materials

Recent developments of electrodeposition-redox replacement in metal recovery and functional materials: A review

Linfan Cui, Kirsi Yliniemi, Jaana Vapaavuori, Mari Lundström 2023 Chemical Engineering Journal

Potato virus A particles – A versatile material for self-assembled nanopatterned surfaces

Swarnalok De, Hoang M. Nguyen, Ville Liljeström, Kristiina Mäkinen, Mauri Kostiainen, Jaana Vapaavuori 2023 Virology

In-situ Monitoring of Photocontrollable Wrinkle Erasure in Azobenzene-based Supramolecular Systems

Yujiao Dong, Pedro E.S. Silva, Jaakko V.I. Timonen, Jaana Vapaavuori 2023 ChemPhysChem

Recovery of Gold as Nanoparticles from Gold-Poor Au-Cu-Cl Solutions

Reima Herrala, Zulin Wang, Jaana Vapaavuori, Mari Lundström, Kirsi Yliniemi 2023 Journal of Physical Chemistry C

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

Active Textile Fabrics from Weaving Liquid Crystalline Elastomer Filaments

Pedro E.S. Silva, Xueyan Lin, Maija Vaara, Mithila Mohan, Jaana Vapaavuori, Eugene M. Terentjev 2023 Advanced Materials

Maximizing sound absorption, thermal insulation, and mechanical strength of anisotropic pectin cryogels

Fangxin Zou, Jose Cucharero, Yujiao Dong, Pinja Kangas, Ya Zhu, Janne Kaskirinne, Girish C. Tewari, Tuomas Hänninen, Tapio Lokki, Hailong Li, Jaana Vapaavuori 2023 Chemical Engineering Journal

Biowaste-derived electrode and electrolyte materials for flexible supercapacitors

Yazan Al Haj, Seyedabolfazl Mousavihashemi, Daria Robertson, Maryam Borghei, Timo Pääkkönen, Orlando J. Rojas, Eero Kontturi, Tanja Kallio, Jaana Vapaavuori 2022 Chemical Engineering Journal
Mer information om vår forskning finns på Aaltos forskningsportal.
Forskningsportal

Tidigare evenemang

(på engelska)

Beyond e-Textiles: ENTANGLED

Prototype exhibition of the 'Beyond e-Textiles' project

Entangled exhibition, Beyond e-Textiles project.

Beyond e-Textiles: public lecture (June 7, 2023)

The 5th iterative workshop of the 'Beyond e-Textiles' project

Beyond e-Textiles, Public lecture (June 7, 2023)

MMD Colloquium 2022: Wearables Technology

Multifunctional Materials Design: a series of online lectures by invited guests

MMD Colloquium 2022 main image

FinnCERES Scientific Seminar 2022: Back to Fundamentals - Fibre, Water & Interactions

The FinnCERES Scientific Seminar 2022 Back to Fundamentals - Fibre, Water & Interactions will explore the full potential of bio-based raw materials. This year we will focus on how to fully harness the inherent properties of all the lignocellulosic fractions to develop new bio-based and bio-inspired materials.

FinnCERES Scientific Seminar 2022
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