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Wild bird gestures after you

<p>A small-bird species, the Japanese tit (<em>Parus minor</em>), uses wing movements as a gesture to convey the message “after you,” according to new research at the University of Tokyo. When a mating pair arrives at their nest box with food, they will wait outside on perches. One will then often flutter its wings toward the other, apparently indicating for the latter to enter first. The researchers say that this discovery challenges the previous belief that gestural communication is prominent only in humans and great apes, significantly advancing our understanding of visual communication in birds.</p>

Bunkyo kuToshitakan suzukiToshitaka suzukiNorimasa sugitaNicola burghallPublic relations groupUniversity of tokyo is japanProgram grant numberResearch contactTechnology agencyMethod of researchJapan society for the promotion of scienceResearch centerUniversity of tokyoSuzuki laboratoryAssociate professor toshitaka suzuki

Wild bird gestures after you

<p>A small-bird species, the Japanese tit (<em>Parus minor</em>), uses wing movements as a gesture to convey the message “after you,” according to new research at the University of Tokyo. When a mating pair arrives at their nest box with food, they will wait outside on perches. One will then often flutter its wings toward the other, apparently indicating for the latter to enter first. The researchers say that this discovery challenges the previous belief that gestural communication is prominent only in humans and great apes, significantly advancing our understanding of visual communication in birds.</p>

Bunkyo kuToshitaka suzukiToshitakan suzukiNorimasa sugitaNicola burghallProgram grant numberUniversity of tokyoResearch contactJapan society for the promotion of scienceUniversity of tokyo is japanTechnology agencyMethod of researchPublic relations groupResearch centerSuzuki laboratoryAssociate professor toshitaka suzuki

Will the Nanotube Family s Newest Addition Replace Carbon?

Tokyo Metropolitan University researchers used boron-nitride nanotubes to create a variety of novel single-walled transition metal dichalcogenide (TMD) nanotubes with varying compositions, chirality, and diameters.

Yusuke nakanishiMegan craigProgram grant numbersTokyo metropolitan universitySemiconductors industryProgram grant numberImage creditTokyo metropolitanIndustry focusProfessor yusuke nakanishiGrant numbersGrant numberStructural diversity

Nanotube Family Expands, Outshines Carbon

Nanotube Family Expands, Outshines Carbon
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Yusuke nakanishiProgram grant numberTokyo metropolitan universityProgram grant numbersAssistant professor yusuke nakanishiGrant numbersGrant number

Move over carbon, the nanotube family just go

<p>Tokyo, Japan – Researchers from Tokyo Metropolitan University have engineered a range of new single-walled transition metal dichalcogenide (TMD) nanotubes with different compositions, chirality, and diameters by templating off boron-nitride nanotubes. They also realized ultra-thin nanotubes grown inside the template, and successfully tailored compositions to create a family of new nanotubes. The ability to synthesize a diverse range of structures offers unique insights into their growth mechanism and novel optical properties.</p>

Yusuke nakanishiProgram grant numbersTokyo metropolitan universityProgram grant numberAssistant professor yusuke nakanishiGrant numbersGrant number

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