Recent superconducting transition temperatures (T ) over 100 K for monolayer FeSe on SrTiO have renewed interest in the bulk parent compound. In KCl:AlCl flux-transport-grown crystals of FeSeBe, FeSeBe and, for comparison, FeSe, this work reports doping of FeSe using Be-among the smallest of possible dopants, corresponding to an effective 'chemical pressure'. According to lattice parameter measurements, 6% Be doping shrank the tetragonal FeSe lattice equivalent to a physical pressure of 0.75 GPa. Using this flux-transport method of sample preparation, 6% of Be was the maximum amount of dopant achievable. At this maximal composition of FeSeBe, the lattice unit cell shrinks by 2.4%, T -measured in the bulk via specific heat-increases by almost 10%, the T versus pressure behavior shifts its peak [Formula: see text] downwards by ~1 GPa, the high temperature structural transition around T = 89 K increases by 1.9 K (in contrast to other dopants in FeSe which uniformly depress T ), and the low temperature specific heat γ increases by 10% compared to pure FeSe. Also, upon doping by 6% Be the residual resistivity ratio, ρ(300 K)/ρ(T → 0), increases by almost a factor of four, while ρ(300 K)/ρ([Formula: see text]) increases by 50%.
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