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1.
Chem Commun (Camb) ; 60(44): 5751-5754, 2024 May 28.
Article in English | MEDLINE | ID: mdl-38747134

ABSTRACT

A general strategy for confining Pd, Ti-bimetallic sites in the MFI zeolite by crystal epitaxy was developed. The tailored spatial intimacy of the bimetallic sites demonstrated distinct catalytic performance for the oxidation of benzylalcohol. The related mechanism was clarified and afforded a valuable pathway for rational catalyst design.

2.
Bioinspir Biomim ; 8(4): 046010, 2013 Dec.
Article in English | MEDLINE | ID: mdl-24200672

ABSTRACT

Experimental methods and related theories to evaluate the lift force for a flyer are established, but one can traditionally acquire only the magnitude of that lift. We here proffer an analysis based on kinematic theory and experimental visualization of the flow to complete a treatment of the aerodynamic force affecting a hovering flyer that generates a lift force approximately equal to its weight, and remains nearly stationary in midair; the center and direction of the aerodynamic force are accordingly determined with some assumptions made. The principal condition to resolve the problem is the stabilization of the vision of a flyer, which is inspired by a hovering passerine that experiences a substantial upward swing during downstroke periods while its eye remains stabilized. Viewing the aerodynamic force with a bird's eye, we find that the center and direction of this aerodynamic force vary continuously with respect to the lift force. Our results provide practical guidance for engineers to enhance the visual stability of surveillance cameras incorporated in micro aerial vehicles.


Subject(s)
Birds/physiology , Eye Movements/physiology , Flight, Animal/physiology , Models, Biological , Psychomotor Performance/physiology , Visual Perception/physiology , Wings, Animal/physiology , Animals , Computer Simulation , Feedback, Physiological/physiology , Stress, Mechanical , Viscosity
3.
Article in English | MEDLINE | ID: mdl-23496548

ABSTRACT

Some small birds typically clap their wings ventrally, particularly during hovering. To investigate this phenomenon, we analyzed the kinematic motion and wake flow field of two passerine species that hover with the same flapping frequency. For these two birds, the ventral clap is classified as direct and cupping. Japanese White-eyes undertake a direct clap via their hand wings, whereas Gouldian Finches undertake a cupping clap with one wing overlaying the other. As a result of their morphological limitation, birds of both greater size and wing span cup their wings to increase the wing speed during a ventral clap because of the larger wing loading. This morphological limitation leads also to a structural discrepancy of the wake flow fields between these two passerine species. At the instant of clapping, the direct clap induces a downward air velocity 1.68 times and generates a weight-normalized lift force 1.14 times that for the cupping clap. The direct clap produces a small upward jet and a pair of counter-rotating vortices, both of which abate the transient lift at the instant of clapping, but they are not engendered by the cupping clap. The aerodynamic mechanisms generated with a ventral clap help the small birds to avoid abrupt body swinging at the instant of clapping so as to maintain their visual stability during hovering.


Subject(s)
Finches/physiology , Flight, Animal/physiology , Models, Biological , Wings, Animal/physiology , Animals , Computer Simulation
4.
J R Soc Interface ; 9(72): 1674-84, 2012 Jul 07.
Article in English | MEDLINE | ID: mdl-22258552

ABSTRACT

We demonstrate experimentally that a passerine exploits tail spreading to intercept the downward flow induced by its wings to facilitate the recovery of its posture. The periodic spreading of its tail by the White-eye bird exhibits a phase correlation with both wingstroke motion and body oscillation during hovering flight. During a downstroke, a White-eye's body undergoes a remarkable pitch-down motion, with the tail undergoing an upward swing. This pitch-down motion becomes appropriately suppressed at the end of the downstroke; the bird's body posture then recovers gradually to its original status. Employing digital particle-image velocimetry, we show that the strong downward flow induced by downstroking the wings serves as an external jet flow impinging upon the tail, providing a depressing force on the tail to counteract the pitch-down motion of the bird's body. Spreading of the tail enhances a rapid recovery of the body posture because increased forces are experienced. The maximum force experienced by a spread tail is approximately 2.6 times that of a non-spread tail.


Subject(s)
Posture/physiology , Sparrows/physiology , Tail/physiology , Animals , Wings, Animal/physiology
5.
Phys Rev E Stat Nonlin Soft Matter Phys ; 84(1 Pt 1): 012901, 2011 Jul.
Article in English | MEDLINE | ID: mdl-21867240

ABSTRACT

We provide physical insight into how a small hovering bird attains stabilized vision during downstroke. A passerine generates a lift force greater than its body weight during downstroke, leading to a substantial swing of the bird body, but the bird's eyes are nearly stable. Employing digital particle-image velocimetry, we demonstrate that a hovering passerine generates a lift force acting dorsal to the center of mass, concurrently resulting in rotational and translational displacements of the bird's body. The most notable finding is that the rotational and translational displacements at the bird's eyes almost cancel each other; the displacement of the eye is ~8% that of the trailing tip of the tail. This aerodynamic trick enables a bird to attain stabilized vision beneficial for the inspection of the environment.


Subject(s)
Biophysics/methods , Birds/physiology , Flight, Animal/physiology , Vision, Ocular , Wings, Animal/physiology , Algorithms , Animals , Biomechanical Phenomena , Light , Models, Biological , Motion , Wings, Animal/anatomy & histology
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