Kristijan Brecl (Avtor), Marko Jošt (Avtor), Matevž Bokalič (Avtor), Jernej Ekar (Avtor), Janez Kovač (Avtor), Marko Topič (Avtor)

Povzetek

Potential induced degradation (PID) is a solar cell related degradation mechanism due to high potential difference in a photovoltaic (PV) module between the solar cells and its grounded frame. This type of degradation is well known for silicon PV, however, for perovskites it has not been thoroughly researched yet. Here, we investigate the PID of perovskite solar cells for bias voltages of ±500 V, half of the currently used system voltage, and ±1000 V with regular I-V and EL measurements during the test. Our devices show a high PID resistance under applied bias of ±500 V, far exceeding the recommended guidelines for silicon PV. However, for the bias voltage of -1000 V a rapid degradation was observed due to the ingress of sodium ions from the glass substrate as confirmed by the ToF-SIMS measurements of spatial and depth distribution of elements in solar cells. Positively biased devices show no degradation due to high voltage exposure. These results show promising signs that perovskite solar cells are PID proof for current PV system designs.

Ključne besede

perovskitne sončne celice;napetostno vzbujena degradacija;stabilnost;zunanje delovanje;perovskite solar cells;potential-induced degradation;stability;field operation;

Podatki

Jezik: Angleški jezik
Leto izida:
Tipologija: 1.01 - Izvirni znanstveni članek
Organizacija: UL FE - Fakulteta za elektrotehniko
UDK: 621.383.51:53
COBISS: 90437635 Povezava se bo odprla v novem oknu
ISSN: 2367-198X
Št. ogledov: 244
Št. prenosov: 0
Ocena: 0 (0 glasov)
Metapodatki: JSON JSON-RDF JSON-LD TURTLE N-TRIPLES XML RDFA MICRODATA DC-XML DC-RDF RDF

Ostali podatki

Sekundarni jezik: Slovenski jezik
Sekundarne ključne besede: perovskitne sončne celice;napetostno vzbujena degradacija;stabilnost;zunanje delovanje;
Konec prepovedi (OpenAIRE): 2022-12-11
Strani: str. 2100815-1-2100815-10
Letnik: ǂVol. ǂ6
Zvezek: ǂissue ǂ2
Čas izdaje: 2022
DOI: 10.1002/solr.202100815
ID: 14119235