Category:Biomimetics

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English: Biomimetics is the study of the structure and function of biological systems as models for the design and engineering of materials and machines. It is widely regarded as being synonymous with biomimicry, biomimesis, biognosis and similar to biologically inspired design.

<nowiki>biomimesis; Biomimetismo; биомиметика; Biomimetik; Biomimika; بیومیمتیک; 仿生材料學; Biomimetică; バイオミメティクス; biomimetik; ביומימטיקה; प्रकृति अभिप्रेरित निर्माण; 생체모방; bioimitado; Bayo-egekia; உயிரீகள் ஊக்குவிக்கும் ஆக்கம்(Biomimetics); biomimetica; biomimétisme; Biomimikri; Биомиметика; biomimética; bithaithris; Biomīmikrija; Bioddynwared; Биомиметика; biomimetika; Biomimetik; biomimètica; Biomimetika; ไบโอมิเมติกส์; biomimetika; biomimikk; biomimetica; Biyomimetik; біоміметика; Biomimikrija u energetici; Biomimetik; biomimetics; محاكاة حيوية; biomimetiikka; بيوتقليد; ciencia que estudia a la naturaleza como fuente de inspiración de nuevas tecnologías innovadoras; 生物模倣技術; imitation des systèmes biologiques pour la résolution des problèmes humains; teknik inspirerad av biologiskt liv i naturen (ex. kardborreband); ענף של מחקרים מדעיים; Estudi de sintesi de materials nous a partir de materials nous; dynwared natur i ddylunio neu ddeall strwythura cymleth; biologiaa ja teknologiaa hyödyntävä monitieteellinen tutkimusala, jossa ratkaistaan ongelmia ottamalla mallia luonnossa esiintyvistä rakenteista, toiminnoista ja materiaaleista; imitation of biological systems to understand underlying mechanisms and to obtain ideas from nature to benefit science, engineering, and medicine; scienza che studia la natura come fonte di ispirazione per nuove tecnologie innovative; İnsan problemlerinin çözümü için biyolojik sistemlerin taklidi; உயிரினையாக்கம்; biomimética; biomimetismo; 生物模倣; 生物模倣技術; バイオミメティックス; Biomimikry; biomimeteg; bioddynwared; Biomímica; biomimicry; biomimetismo; 擬生技術; 生體模仿學; 仿生技術; Bayo-egekia(Biomimcry, Bionics)</nowiki>

biomimetics

imitation of biological systems to understand underlying mechanisms and to obtain ideas from nature to benefit science, engineering, and medicine

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Subclass of

Said to be the same as

biologically inspired engineering

Authority file
Q1145644 Library of Congress authority ID: sh2009009163 NDL Authority ID: 001258319 BNCF Thesaurus ID: 51087 NL CR AUT ID: ph705646 J9U ID: 987007570344505171
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Subcategories

This category has the following 6 subcategories, out of 6 total.

B

Biomechanical art (2 C)

E

Diana Eng (1 C, 2 F)

G

Ille Gebeshuber (2 F)

N

Neuromorphic engineering (4 C, 8 F)

O

Organ-on-a-chip technology (1 C, 23 F)

P

Phyllotaxy towers (15 F)

Media in category "Biomimetics"

The following 49 files are in this category, out of 49 total.

Artificial-biofilms-establish-the-role-of-matrix-interactions-in-staphylococcal-biofilm-assembly-srep13081-s1.ogv 15 s, 640 × 480; 1.92 MB
Artificial-biofilms-establish-the-role-of-matrix-interactions-in-staphylococcal-biofilm-assembly-srep13081-s2.ogv 15 s, 640 × 480; 680 KB
Artificial-biofilms-establish-the-role-of-matrix-interactions-in-staphylococcal-biofilm-assembly-srep13081-s3.ogv 15 s, 640 × 480; 361 KB
Artificial-biofilms-establish-the-role-of-matrix-interactions-in-staphylococcal-biofilm-assembly-srep13081-s4.ogv 15 s, 640 × 480; 687 KB
Artificial-biofilms-establish-the-role-of-matrix-interactions-in-staphylococcal-biofilm-assembly-srep13081-s5.ogv 15 s, 640 × 480; 523 KB
Artificial-biofilms-establish-the-role-of-matrix-interactions-in-staphylococcal-biofilm-assembly-srep13081-s6.ogv 15 s, 640 × 480; 3.09 MB
Artificial-biofilms-establish-the-role-of-matrix-interactions-in-staphylococcal-biofilm-assembly-srep13081-s7.ogv 15 s, 640 × 480; 1.83 MB
Artificial-biofilms-establish-the-role-of-matrix-interactions-in-staphylococcal-biofilm-assembly-srep13081-s8.ogv 15 s, 640 × 480; 2.4 MB
Artificial-biofilms-establish-the-role-of-matrix-interactions-in-staphylococcal-biofilm-assembly-srep13081-s9.ogv 15 s, 640 × 480; 2.54 MB
Bhushan.jpg 480 × 463; 204 KB
Biomimetic Sniffing Improves the Detection Performance of a 3D Printed Nose of a Dog and a Commercial Trace Vapor Detector.pdf 1,239 × 1,629, 10 pages; 1.82 MB
Biomimetic synthesis.pdf 766 × 947; 95 KB
Bur Macro BlackBg.jpg 2,184 × 1,760; 425 KB
Correa David biomimetic 4D printing.jpg 1,275 × 675; 464 KB
ElephantArmRobot.jpg 270 × 833; 101 KB
Gecko in Malaysia.jpg 4,288 × 2,848; 671 KB
In-Situ-Preparation-of-Biomimetic-Thin-Films-and-Their-Surface-Shielding-Effect-for-Organisms-in-pone.0078563.s004.ogv 12 s, 352 × 288; 728 KB
In-Situ-Preparation-of-Biomimetic-Thin-Films-and-Their-Surface-Shielding-Effect-for-Organisms-in-pone.0078563.s005.ogv 14 s, 352 × 288; 693 KB
ISplash Robotic Fish bis.png 5,058 × 3,133; 9.05 MB
ISplash Robotic Fish.jpg 6,016 × 4,000; 7.45 MB
Nano tape used to hang household items.jpg 3,000 × 3,000; 4.33 MB
Nano tape.jpg 4,000 × 3,000; 3.17 MB
Nanoparticle-Targeting-and-Cholesterol-Flux-Through-Scavenger-Receptor-Type-B-1-Inhibits-Cellular-srep15724-s2.ogv 6.1 s, 512 × 512; 1.56 MB
Nanoparticle-Targeting-and-Cholesterol-Flux-Through-Scavenger-Receptor-Type-B-1-Inhibits-Cellular-srep15724-s3.ogv 6.1 s, 512 × 512; 297 KB
Nanoparticle-Targeting-and-Cholesterol-Flux-Through-Scavenger-Receptor-Type-B-1-Inhibits-Cellular-srep15724-s4.ogv 6.1 s, 512 × 512; 565 KB
Nanoparticle-Targeting-and-Cholesterol-Flux-Through-Scavenger-Receptor-Type-B-1-Inhibits-Cellular-srep15724-s5.ogv 6.1 s, 512 × 512; 392 KB
Nanoparticle-Targeting-and-Cholesterol-Flux-Through-Scavenger-Receptor-Type-B-1-Inhibits-Cellular-srep15724-s6.ogv 6.1 s, 512 × 512; 656 KB
Natural Inclusion Audio Dialogue.wav 14 min 5 s; 38.66 MB
Raoul Heinrich Francé Poppy and Pepperpot from Die Pflanze als erfinder 1920.jpeg 676 × 363; 68 KB
Resolving-single-membrane-fusion-events-on-planar-pore-spanning-membranes-srep12006-s2.ogv 25 s, 256 × 256; 8.9 MB
Resolving-single-membrane-fusion-events-on-planar-pore-spanning-membranes-srep12006-s3.ogv 25 s, 256 × 256; 11.22 MB
The-Evolution-of-Robust-Development-and-Homeostasis-in-Artificial-Organisms-pcbi.1000030.s004.ogv 13 s, 800 × 600; 391 KB
The-Evolution-of-Robust-Development-and-Homeostasis-in-Artificial-Organisms-pcbi.1000030.s005.ogv 13 s, 800 × 600; 1.86 MB
The-Evolution-of-Robust-Development-and-Homeostasis-in-Artificial-Organisms-pcbi.1000030.s006.ogv 13 s, 800 × 600; 827 KB
The-Evolution-of-Robust-Development-and-Homeostasis-in-Artificial-Organisms-pcbi.1000030.s007.ogv 25 s, 800 × 600; 420 KB
The-Evolution-of-Robust-Development-and-Homeostasis-in-Artificial-Organisms-pcbi.1000030.s008.ogv 25 s, 800 × 600; 2.97 MB
The-Evolution-of-Robust-Development-and-Homeostasis-in-Artificial-Organisms-pcbi.1000030.s009.ogv 25 s, 800 × 600; 1.06 MB
The-Evolution-of-Robust-Development-and-Homeostasis-in-Artificial-Organisms-pcbi.1000030.s010.ogv 15 s, 800 × 600; 2.1 MB
The-Evolution-of-Robust-Development-and-Homeostasis-in-Artificial-Organisms-pcbi.1000030.s011.ogv 15 s, 800 × 600; 2.16 MB
The-Evolution-of-Robust-Development-and-Homeostasis-in-Artificial-Organisms-pcbi.1000030.s012.ogv 20 s, 800 × 600; 805 KB
The-Evolution-of-Robust-Development-and-Homeostasis-in-Artificial-Organisms-pcbi.1000030.s013.ogv 1 min 0 s, 800 × 600; 4 MB
The-Evolution-of-Robust-Development-and-Homeostasis-in-Artificial-Organisms-pcbi.1000030.s014.ogv 15 s, 800 × 600; 810 KB
The-Evolution-of-Robust-Development-and-Homeostasis-in-Artificial-Organisms-pcbi.1000030.s015.ogv 20 s, 800 × 600; 1.15 MB
The-Evolution-of-Robust-Development-and-Homeostasis-in-Artificial-Organisms-pcbi.1000030.s016.ogv 1 min 0 s, 800 × 600; 4 MB
The-Evolution-of-Robust-Development-and-Homeostasis-in-Artificial-Organisms-pcbi.1000030.s017.ogv 40 s, 800 × 600; 1.79 MB
Tiny surface structures make nasturtium leaves water-resistant.jpg 3,008 × 2,000; 2.37 MB
Transformation-and-patterning-of-supermicelles-using-dynamic-holographic-assembly-ncomms10009-s2.ogv 21 s, 516 × 516; 14.27 MB
Transformation-and-patterning-of-supermicelles-using-dynamic-holographic-assembly-ncomms10009-s3.ogv 1 min 13 s, 504 × 504; 35.11 MB
Triangular-prism-shaped-β-peptoid-helices-as-unique-biomimetic-scaffolds-ncomms8013-s2.ogv 3 min 30 s, 230 × 234; 30.11 MB

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Bionics

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