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[16] Giant elastocaloric effect with wide temperature window in an Al-doped nanocrystalline Ti–Ni–Cu shape memory alloy, Acta Materialia 177 (2019) 169-177. (corresponding author)
[15] Stable and large superelasticity and elastocaloric effect in nanocrystalline Ti-44Ni-5Cu-1Al (at%) alloy, Acta Materialia 158 (2018) 330-339. (corresponding author)
[14] Stable elastocaloric effect under tensile stress of iron-palladium alloy and its in situ X-ray observation, Acta Materialia 118 (2016) 88-94. (first author)
[13] Elastocaloric effect in Ni50Fe19Ga27Co4 single crystals, Acta Materialia 96 (2015) 292-300. (first author)
[12] Elastocaloric effect by a weak first-order transformation associated with lattice softening in an Fe-31.2Pd (at.%) alloy, Acta Materialia 87 (2015) 8-14. (first author)
[11] On the physical nature of high reversible strain in Fe-Pd single crystals exhibiting lattice softening, Acta Materialia 61 (2013) 4044-4052. (first author)
[10] Orientation dependence of damping behavior in a Mn-Cu shape memory alloy, Scripta Materialia 170 (2019) 95-98. (corresponding author)
[9] Orientation dependence of elastocaloric effect in an aged Ni-rich Ti-Ni alloy, Scripta Materialia 168 (2019) 86-90. (corresponding & first author)
[8] Internal friction of the R-phase in single crystalline Ti-50.8Ni (at%) alloy containing controlled precipitate of Ti3Ni4, Scripta Materialia 166 (2019) 44-47. (corresponding author)
[7] Improvement of the stability of superelasticity and elastocaloric effect of a Ni-rich Ti-Ni alloy by precipitation and grain refinement, Scripta Materialia 162 (2019) 230–234. (corresponding author)
[6] Size effect on the mechanical behavior of single crystalline Fe-31.2Pd (at.%) micropillars, Scripta Materialia 152 (2018) 141-145. (first author)
[5] Growth of B2 parent phase grain assisted by martensitic transformation in a nanocrystalline Ti-50.8Ni (at.%) shape memory alloy, Scripta Materialia 159 (2018) 37–40. (corresponding author)
[4] Composition and structure dependence of specific heat of disordered iron-palladium alloys, Scripta Materialia 139 (2017) 92–95. (first author)
[3] Elastocaloric effect induced by the rubber-like behavior of nanocrystalline wires of a Ti-50.8Ni (at.%) alloy, Scripta Materialia 134 (2017) 42–46. (corresponding author)
[2] Inverse elastocaloric effect in a Ti-Ni alloy containing aligned coherent particles of Ti3Ni4, Scripta Materialia 124 (2016) 133-137. (first author)
[1] Elastocaloric effect in a textured polycrystalline Ni-Mn-In-Co metamagnetic shape memory alloy, Applied Physics Letters 102 (2013) 161914. (first author)
