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ENERGIX-Stort program energi

"Silicon-based anodes towards market penetration"

Alternative title: Silisiumbaserte anoder mot et markedsgjennombrudd.

Awarded: NOK 9.9 mill.

The Li-ion battery market is growing rapidly and is expected to multi-fold change in the next decade. The market will transfer from a consumer electronics dominated to a phase dominated by electronic vehicles (EVs). However, an extraordinary growing demand for batteries encourage new and available raw materials to enter the market to deliver better performance. Those emerging materials include silicon and silicon-based materials. Silicon introduced as promising anode material reveal its potential by demonstrating astonishing storage capacity. But there are some challenges linked to silicon-based anode materials. The present project aims to solve those challenges by utilizing silicon produced by Elkem. The silicon material will be optimized through different strategies; using the knowledge that have been obtained in earlier internal and governmental supported R&D Projects (IPN-Projects from Forskningsrådet). The active material, silicon, has been optimized and tested in battery cells. The results show that some of the physical and the chemical properties of silicon produced by Elkem are important for the battery performance.

The SiBANODE project included development of the silicon-based material, demonstration of scale-up production method, design of cell, demonstration in coin cells, and pouch cells. The challenging goal of extending the cycle lifetime to 1000 cycles has unfortunately not been achieved. Stability of the material was studied by state-of-the art electron microscopy, in addition to molecular modelling. Some material properties and surface design of the material needs further investigation in order to close the gap between obtained results and target for the anode material.

SiBANODE is aimed to develop silicon-based materials which will be utilized in the lithium-ion batteries delivering high capacity while keeping long lifetime. Li-ion battery is a quickly expanding technology rapidly penetrating various markets and applications. Originating from the portable electronics, Li-ion batteries are currently widely utilized in the alternative applications, such as transportation and stationary energy storage. However, an extraordinary growing demand for batteries encourage new materials to enter the market to deliver better performance. Those emerging materials include silicon and silicon-based compounds. Silicon introduced as promising anode material revealed its potential by demonstrating astonishing storage capacity. Nowadays utilized only as a small fraction in the commercial anodes of Li-ion batteries, silicon represents a major scientific and technological challenge in the field. The wide use of silicon in anodes is strongly limited by the intrinsic properties of silicon. The ability of this material to accept 4.4 atoms of lithium per atom of silicon results in enormous expansion and contraction during lithiation and corresponding delithiation occurring during battery cycling. Such volume change significantly limits the application of this technology and have been a topic of extensive research over the last decade. The present project is aimed to solve those problems by utilizing battery-grade silicon produced by Elkem and enhancing its stability by two routes. The first include the preparation of the alloyed silicon-based materials, which due to a slightly different functioning, will deliver long-term stability while keeping the benefits of the parenting silicon. Second alternative strategy will include chemical modification of the existing silicon by tuning the microscopic and surface properties of silicon particles. SiBANODE utilizes long-term experience in manufacturing, characterization and research of Elkem, Sintef and IFE.

Funding scheme:

ENERGIX-Stort program energi

Thematic Areas and Topics

LTP3 Uttesting og kommersialisering av FoUVerifisering, pilotering, demonstrasjon (ny fra 2014)Politikk- og forvaltningsområderSamferdsel og kommunikasjonPolitikk- og forvaltningsområderNæring og handelBransjer og næringerTransport og samferdselAvanserte produksjonsprosesserFNs BærekraftsmålAvanserte produksjonsprosesserBruk av avansert produksjonsteknologi (ny fra 2015)Anvendt forskningBransjer og næringerMaritim - NæringsområdeFNs BærekraftsmålMål 7 Ren energi for alleFNs BærekraftsmålMål 13 Stoppe klimaendringeneBransjer og næringerDelportefølje Et velfungerende forskningssystemLTP3 Bærekraftige byregioner og transportsystemerBransjer og næringerEnergi - NæringsområdeKlimarelevant forskningLTP3 Et kunnskapsintensivt næringsliv i hele landetLTP3 Miljøvennlig energi og lavutslippsløsningerBransjer og næringerProsess- og foredlingsindustriLavutslippPolitikk- og forvaltningsområderLTP3 Muliggjørende og industrielle teknologierLTP3 Klima, miljø og energiNanoteknologi/avanserte materialerNanovitenskap og -teknologiPortefølje ForskningssystemetLTP3 Nano-, bioteknologi og teknologikonvergensMaterialteknologiTransport og mobilitetPortefølje Muliggjørende teknologierLTP3 Styrket konkurransekraft og innovasjonsevneNanoteknologi/avanserte materialerMiljøvennlig energiNanoteknologi/avanserte materialerAvanserte materialerMiljøvennlig energiEnergibruk i transport, batteri/elPolitikk- og forvaltningsområderEnergi - Politikk og forvaltningPortefølje Energi og transportPortefølje Innovasjon