@article{33413, keywords = {Room temperature, Ferroelectric materials, Superlattices, Negative capacitance, Epitaxial strain}, author = {W Gao and A Khan and X Marti and C Nelson and C Serrao and J Ravichandran and Ramamoorthy Ramesh and S Salahuddin}, title = {Room-temperature negative capacitance in a ferroelectric-dielectric superlattice heterostructure}, abstract = {We demonstrate room-temperature negative capacitance in a ferroelectric-dielectric superlattice heterostructure. In epitaxially grown superlattice of ferroelectric BSTO (Ba0.8Sr0.2TiO3) and dielectric LAO (LaAlO3), capacitance was found to be larger compared to the constituent LAO (dielectric) capacitance. This enhancement of capacitance in a series combination of two capacitors indicates that the ferroelectric was stabilized in a state of negative capacitance. Negative capacitance was observed for superlattices grown on three different substrates (SrTiO3 (001), DyScO3 (110), and GdScO3 (110)) covering a large range of substrate strain. This demonstrates the robustness of the effect as well as potential for controlling the negative capacitance effect using epitaxial strain. Room-temperature demonstration of negative capacitance is an important step toward lowering the subthreshold swing in a transistor below the intrinsic thermodynamic limit of 60 mV/decade and thereby improving energy efficiency. © 2014 American Chemical Society.}, year = {2014}, journal = {Nano Letters}, volume = {14}, number = {10}, pages = {5814-5819}, publisher = {American Chemical Society}, issn = {15306984}, doi = {10.1021/nl502691u}, note = {cited By 73}, language = {eng}, }