Wide bandgap oxides with ionic conductor operate as single-layer fuel cell
Nanocomposite fuel cells have recently been shown to be able to work as a 1-layer fuel cell instead of a 3-layer (cathode,electrolyte, anode) traditional fuel cell. The 1-layer fuel cell is made of a mixture of semiconducting and ionic materials which contain all functionalities of a fuel cell. Basically, such as fuel cell would have a major potential for mass production because of its simple structure. The working principle of the single layer fuel cell has been debated. Now Aalto University researchers have verified the underlying mechanisms of this fuel cell type by using wide bandgap oxide materials (LiNiZn) with gadolinium-doped ceria. The oxides work as an insulator against electrons in the material preventing short-circuting of the fuel cell. It was found that the material mixture is a protonic conductor. The test fuel cells built reached a power density of 357 mW/cm2 at 550 C without using catalytic current collectors.
The results were published in Nano Energy 53 (2018) 391-397.
Read more news
Design at the start of the supply chain 鈥 Aalto University leads a major EU project to transform textile colouration practices
The EU Horizon-funded MELANGE project brings together design, technology and business to rethink colouration practices in the textile industry and accelerate the transition towards circular and sustainable textile systems.
Arsi Ik盲heimonen鈥檚 doctoral research: Smartphone data could reveal early signs of depression
A phone in your pocket, a smart ring on your finger, and an activity tracker on your wrist: everyday devices collect information about their users almost continuously. This data can help monitor and predict symptoms of depression.
Professor Hironori Yoshida: 鈥淢achines should adapt to materials, not the other way around鈥
Professor of Formgiving believes the future of design lies in embracing irregularity rather than eliminating it. His research combines design, AI and robotics.