Another excellent example of what magic defects can do, by @DennisGMeier, "defects are generated with nanoscale spatial precision to locally enhance the electronic hopping conductivity by orders of magnitude without disturbing the ferroelectric order"
RT @DennisGMeier: Some types of defects are truly hidden! Nevertheless, they can totally turn the electronic behavior of a material upside…
A route to control the conductivity of functional oxides using AFM could allow for an improvement of conductivity that is not detrimental to other materials’ properties like magnetism or multiferroicity, as demonstrated in @NatureMaterials here: https://t.
RT @NatureMaterials: Article | Conductivity control via minimally invasive anti-Frenkel defects in a functional oxide @NTNUnorway @icmabCSI…
RT @NatureMaterials: Article | Conductivity control via minimally invasive anti-Frenkel defects in a functional oxide @NTNUnorway @icmabCSI…
RT @NatureMaterials: Article | Conductivity control via minimally invasive anti-Frenkel defects in a functional oxide @NTNUnorway @icmabCSI…
RT @NatureMaterials: Article | Conductivity control via minimally invasive anti-Frenkel defects in a functional oxide @NTNUnorway @icmabCSI…
RT @ETH_physics: An international team led by @NTNUnorway researchers and including @ETH_physics member Zewu Yan demonstrates a novel route…
RT @NatureMaterials: Article | Conductivity control via minimally invasive anti-Frenkel defects in a functional oxide @NTNUnorway @icmabCSI…
RT @NatureMaterials: Article | Conductivity control via minimally invasive anti-Frenkel defects in a functional oxide @NTNUnorway @icmabCSI…
RT @NatureMaterials: Article | Conductivity control via minimally invasive anti-Frenkel defects in a functional oxide @NTNUnorway @icmabCSI…
An international team led by @NTNUnorway researchers and including @ETH_physics member Zewu Yan demonstrates a novel route to combining quantum effects with conductivity modulation in complex oxides. See also this accompanying News & Views piece: http
RT @NatureMaterials: Article | Conductivity control via minimally invasive anti-Frenkel defects in a functional oxide @NTNUnorway @icmabCSI…
RT @NatureMaterials: Article | Conductivity control via minimally invasive anti-Frenkel defects in a functional oxide @NTNUnorway @icmabCSI…
RT @NatureMaterials: Article | Conductivity control via minimally invasive anti-Frenkel defects in a functional oxide @NTNUnorway @icmabCSI…
RT @NatureMaterials: Article | Conductivity control via minimally invasive anti-Frenkel defects in a functional oxide @NTNUnorway @icmabCSI…
RT @NatureMaterials: Article | Conductivity control via minimally invasive anti-Frenkel defects in a functional oxide @NTNUnorway @icmabCSI…
RT @NatureMaterials: Article | Conductivity control via minimally invasive anti-Frenkel defects in a functional oxide @NTNUnorway @icmabCSI…
RT @NatureMaterials: Article | Conductivity control via minimally invasive anti-Frenkel defects in a functional oxide @NTNUnorway @icmabCSI…
RT @NatureMaterials: Article | Conductivity control via minimally invasive anti-Frenkel defects in a functional oxide @NTNUnorway @icmabCSI…
RT @NatureMaterials: Article | Conductivity control via minimally invasive anti-Frenkel defects in a functional oxide @NTNUnorway @icmabCSI…
Article | Conductivity control via minimally invasive anti-Frenkel defects in a functional oxide @NTNUnorway @icmabCSIC @nanolayers @BerkeleyLab @ETH_physics @SINTEF https://t.co/NbhyKItbg7 https://t.co/8lDA7OVk6V
RT @DennisGMeier: Some types of defects are truly hidden! Nevertheless, they can totally turn the electronic behavior of a material upside…
RT @DennisGMeier: Some types of defects are truly hidden! Nevertheless, they can totally turn the electronic behavior of a material upside…
Beautiful work!
RT @DennisGMeier: Some types of defects are truly hidden! Nevertheless, they can totally turn the electronic behavior of a material upside…
Conductivity control via minimally invasive anti-Frenkel defects in a functional oxide https://t.co/SQ5bUHdrmn https://t.co/QWKERzLWq9
RT @DennisGMeier: Some types of defects are truly hidden! Nevertheless, they can totally turn the electronic behavior of a material upside…
RT @DennisGMeier: Some types of defects are truly hidden! Nevertheless, they can totally turn the electronic behavior of a material upside…
RT @DennisGMeier: Some types of defects are truly hidden! Nevertheless, they can totally turn the electronic behavior of a material upside…
Congrats to you and the team on the outstanding work!
RT @DennisGMeier: Some types of defects are truly hidden! Nevertheless, they can totally turn the electronic behavior of a material upside…
RT @DennisGMeier: Some types of defects are truly hidden! Nevertheless, they can totally turn the electronic behavior of a material upside…
Some types of defects are truly hidden! Nevertheless, they can totally turn the electronic behavior of a material upside down... I am so excited that this #NTNU-driven research is out now!!!! @sverrem_selbach @NTNU @NtnuNano #ferroelectric https://t.co