RESUMO
Single-crystal planes are ideal platforms for catalytic research. In this work, rolled copper foils with predominantly (220) planes were used as the starting material. By using temperature gradient annealing, which caused grain recrystallization in the foils, they were transformed to those with (200) planes. In acidic solution, the overpotential of such a foil (10 mA cm-2) was found to be 136 mV lower than that of a similar rolled copper foil. The calculation results show that hollow sites formed on the (200) plane have the highest hydrogen adsorption energy and are active centers for hydrogen evolution. Thus, this work clarifies the catalytic activity of specific sites on the copper surface and demonstrates the critical role of surface engineering in designing catalytic properties.
RESUMO
People often accompany gestures in the process of speaking, but the individual's gesture style is not the same. The present study uses the ambiguity resolution paradigm to explore the influence of two kinds of gesture styles on gesture-verbal comprehension. The study manipulated the gesture styles and meaning types of target words and recorded N400 amplitude. This study found that (1) in the non-grooming condition, compared with the situation where the gesture and semantics are inconsistent, a smaller N400 appears under the consistent condition; (2) in the grooming condition, the grooming gesture will reduce the effect of the iconic gesture on speech understanding. N400 amplitude increased only in the case of matching between dominant meaning gesture and subordinate meaning target word. These results suggest that the communication styles of gestures of different speakers, in the process of speech comprehension, affect how well listeners integrate gestures and language.