TY - JOUR
T1 - High coercivity and magnetization in WSe2 by codoping Co and Nb
AU - Ahmed, Sohail
AU - Ding, Xiang
AU - Murmu, Peter P.
AU - Bao, Nina
AU - Liu, Rong
AU - Kennedy, John
AU - Wang, Lan
AU - Ding, Jun
AU - Wu, Tom
AU - Vinu, Ajayan
AU - Yi, Jiabao
PY - 2020
Y1 - 2020
N2 - Introducing ferromagnetism in transition metal dichalcogenides has attracted lots of attention due to the possible applications in spintronics devices. Generally, single magnetic element doping is used to introduce magnetism. However, mostly, weak ferromagnetism is observed. In this work, codoping of two kinds of transition metals (Nb and Co) into WSe2 is used to study its magnetic properties. In detail, single crystal WSe2 is codoped with 4 at% Co and various concentrations of Nb by employing the physical ion implantation method. Raman, X‐ray diffraction and X‐ray photoelectron spectroscopy results reveal the effective substitutional doping of implanted elements (Co and Nb). Magnetic measurements illustrate that both un‐doped and 4 at% Co doped WSe2 show weak ferromagnetism whereas magnetization is strongly enhanced when Co and Nb are codoped into WSe2. The magnetization is comparable with a ferromagnet, which may be attributed to Co, Nb doping and defects. In addition, a large coercivity of ≈1.2 kOe is observed in the 1 at% Nb–4 at% Co codoped WSe2 sample, which may be ascribed to the combined effect of doping‐induced stress, defect‐dictated pinning and anisotropy of NbSe bond owing to the charge transfer between Nb and Se ions.
AB - Introducing ferromagnetism in transition metal dichalcogenides has attracted lots of attention due to the possible applications in spintronics devices. Generally, single magnetic element doping is used to introduce magnetism. However, mostly, weak ferromagnetism is observed. In this work, codoping of two kinds of transition metals (Nb and Co) into WSe2 is used to study its magnetic properties. In detail, single crystal WSe2 is codoped with 4 at% Co and various concentrations of Nb by employing the physical ion implantation method. Raman, X‐ray diffraction and X‐ray photoelectron spectroscopy results reveal the effective substitutional doping of implanted elements (Co and Nb). Magnetic measurements illustrate that both un‐doped and 4 at% Co doped WSe2 show weak ferromagnetism whereas magnetization is strongly enhanced when Co and Nb are codoped into WSe2. The magnetization is comparable with a ferromagnet, which may be attributed to Co, Nb doping and defects. In addition, a large coercivity of ≈1.2 kOe is observed in the 1 at% Nb–4 at% Co codoped WSe2 sample, which may be ascribed to the combined effect of doping‐induced stress, defect‐dictated pinning and anisotropy of NbSe bond owing to the charge transfer between Nb and Se ions.
KW - diluted magnetic semiconductors
KW - ion implantation
KW - magnetic properties
UR - http://hdl.handle.net/1959.7/uws:52693
U2 - 10.1002/smll.201903173
DO - 10.1002/smll.201903173
M3 - Article
SN - 1613-6829
SN - 1613-6810
VL - 16
JO - Small
JF - Small
IS - 12
M1 - 1903173
ER -