Category:Nanotechnology
field of applied science whose theme is the control of matter on atomic and (supra)molecular scale | |||||
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Subcategories
This category has the following 45 subcategories, out of 45 total.
*
?
- Acoustic tweezers (7 F)
B
- Bioincubadora–BIOKABI (3 F)
C
- Coulomb blockade (9 F)
D
E
I
- Ion track (31 F)
L
M
- Magnetoresistance (54 F)
- Media from Nanomaterials (7 F)
- Microfluidic chips (14 F)
N
- Nano spray dryers (1 F)
- Nanoarchitectonics (2 F)
- Nanoart (54 F)
- Nanocar (7 F)
- Nanofibers (20 F)
- Nanogenerators (13 F)
- Nanoinformatics (4 F)
- NanoTruck (4 F)
O
R
- Rotaxanes (67 F)
S
- Self-assembly (12 F)
- Synthetic ion channels (14 F)
T
V
Media in category "Nanotechnology"
The following 200 files are in this category, out of 551 total.
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'Nanodrop' Test Tubes Created with a Flip of a Switch (5887832494).jpg 784 × 690; 168 KB
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(Very) Small Town.png 1,022 × 673; 666 KB
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-egg 600 -crop (5615543252).jpg 576 × 630; 159 KB
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0 nanotech leadtest.ogg 1 min 17 s; 627 KB
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1. Infographic – We live in a nano world.jpg 2,000 × 1,536; 1.25 MB
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2000 Nanotechnology by Bill Nye for National Science Foundation.oga 1 min 3 s; 501 KB
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2012 02 02 SEM.tif 1,021 × 884; 883 KB
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3 FET structure.png 774 × 933; 28 KB
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3 FET strucutre.png 774 × 933; 28 KB
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3-chloro-1,1,3-triphenylpropa-1,2-diene.png 1,172 × 293; 34 KB
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3D superlattice of nanocubes.jpg 456 × 441; 27 KB
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56 nm hp polarized image.PNG 567 × 337; 13 KB
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5fling-Rod.jpg 1,024 × 768; 378 KB
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5ling-star.jpg 872 × 828; 32 KB
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5PdeunAosdY.jpg 1,024 × 885; 357 KB
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6-methylpentaceneEquilibrium.png 1,064 × 523; 8 KB
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A system of induction plasma.jpg 1,140 × 843; 109 KB
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Absorption-edge.jpg 824 × 513; 103 KB
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Acid Rain in the Matrix.png 853 × 988; 374 KB
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AFM-Raman-TERS.jpg 5,184 × 3,233; 1,018 KB
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Ald.jpg 851 × 656; 217 KB
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AlexadreLoukanov.png 250 × 324; 142 KB
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AOPDF principle.png 636 × 300; 35 KB
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APD with Superlattice.svg 681 × 633; 8 KB
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Application of nanotechnology.jpg 1,013 × 567; 95 KB
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APS - Nanoprobe.jpg 1,024 × 678; 596 KB
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ARCNL in Matrix VII Amsterdam Science Park February 2019 1024 684.jpg 1,024 × 684; 112 KB
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Argonne's Nanoprobe (4948662800).jpg 1,500 × 996; 1.03 MB
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ASSET Technology.tif 637 × 911; 1.01 MB
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Atomic-manipulations.jpg 983 × 257; 37 KB
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Atomistic22.jpg 637 × 559; 143 KB
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Atomprobe 00 as-prepared Cu-NiFe-W01.jpg 397 × 931; 414 KB
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Attack-cancer.png 410 × 230; 7 KB
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Au-colors.png 668 × 765; 79 KB
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Au-Si Droplet Catalyzing Whisker Growth - droplet Formation.png 545 × 995; 26 KB
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Au-Si Droplet Catalyzing Whisker Growth-ru.svg 1,111 × 1,179; 1 KB
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Au-Si Droplet Catalyzing Whisker Growth.png 604 × 652; 14 KB
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Au-Si Droplet Catalyzing Whisker Growth.svg 290 × 313; 25 KB
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Avalanche factors in SL APD-ru.svg 732 × 629; 21 KB
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BAM phospholipid.png 698 × 521; 152 KB
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Basic Janus Particle.png 145 × 148; 2 KB
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Basic synthesis draft for making janus particles (outline).png 393 × 385; 8 KB
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Bati.png 629 × 413; 695 KB
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Beamspec.png 695 × 446; 68 KB
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Benny Landa at drupa 2012 world premiere of Nanography.jpg 4,912 × 3,264; 4.33 MB
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Berkovich teravik.png 354 × 304; 16 KB
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Berkovich.jpg 197 × 192; 3 KB
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Biofunctionalized.jpg 837 × 482; 246 KB
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Biological and technological scales compared-en.svg 1,062 × 755; 1.46 MB
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Biological and technological scales compared-es.svg 1,062 × 755; 1.52 MB
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Biological and technological scales compared-fr.svg 1,062 × 755; 1.46 MB
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Biological and technological scales compared-mk.svg 1,062 × 755; 1.59 MB
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Biological and technological scales compared-ru.svg 1,062 × 755; 1.51 MB
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Bionano.jpg 2,126 × 3,543; 4.19 MB
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Bionanoobject.jpg 942 × 468; 140 KB
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Block co-polymer method of creating Janus nanoparticles.png 603 × 471; 42 KB
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Brain in a Box.jpg 3,646 × 2,834; 3.01 MB
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Bucked kit.jpg 1,600 × 1,200; 114 KB
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Budget South Korea in Nanotech (in 2018).jpg 830 × 492; 59 KB
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Cattura di schermata (39).png 531 × 390; 29 KB
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Cauliflower vs sintesis.png 2,748 × 1,248; 4.24 MB
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Cell mobility over CSSNCs.jpg 479 × 209; 30 KB
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Cell mobility over CSSNCs2.jpg 483 × 217; 30 KB
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Cellulose Nanotechnology (36931269271).jpg 447 × 291; 120 KB
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CIT 1.jpg 1,545 × 1,044; 145 KB
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CLIMACON TECHNOLOGY FRONT VIEW.png 1,230 × 600; 1.02 MB
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CLIMACON TECHNOLOGY.png 1,230 × 600; 1,015 KB
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CNF on a glass-fiber catalyst.tif 1,280 × 960; 1.17 MB
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CNT switch.svg 673 × 780; 6 KB
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Collapse.jpg 1,101 × 580; 71 KB
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Comparison of Conventional fluids and Nano fluids.jpg 800 × 210; 28 KB
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Comparison of nanomaterials sizes - ta.png 1,304 × 1,203; 651 KB
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Comparison of nanomaterials sizes.jpg 7,824 × 7,216; 2.37 MB
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ConduccionNanohilo.png 363 × 201; 12 KB
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Confocal Raman imaging microscope Witec alpha300 .jpg 5,184 × 3,456; 4.97 MB
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ConicalTip.jpg 206 × 189; 2 KB
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Core-shell np pic.png 317 × 219; 12 KB
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Core-shell types.png 508 × 141; 7 KB
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Crossed Polar Graffiti.tif 1,200 × 900; 2.36 MB
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Cu Catalyst.jpg 3,072 × 2,207; 1.45 MB
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Cu-2 (1).jpg 1,280 × 1,024; 2.24 MB
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Cu05A-10min 1.jpg 1,280 × 1,024; 1.55 MB
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Cubic Carbon Nanocrystal.PNG 291 × 321; 8 KB
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Deepzoom.png 522 × 357; 110 KB
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Dense pellet forming1.jpg 4,544 × 3,034; 4.81 MB
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Dense pellet forming10.jpg 4,928 × 3,264; 6.58 MB
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Dense pellet forming2.jpg 4,602 × 3,078; 4.97 MB
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Dense pellet forming3.jpg 4,193 × 2,803; 3.89 MB
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Dense pellet forming4.jpg 4,040 × 2,701; 3.91 MB
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Dense pellet forming5.jpg 3,426 × 2,291; 2.87 MB
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Dense pellet forming6.jpg 4,001 × 2,669; 4.04 MB
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Dense pellet forming7.jpg 3,867 × 2,586; 3.49 MB
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Dense pellet forming8.jpg 3,682 × 2,457; 4.2 MB
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Dense pellet forming9.jpg 2,666 × 1,780; 2.53 MB
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DEPTHSandWIDTHS.png 369 × 370; 15 KB
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Dh Top.gif 828 × 818; 170 KB
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Didacta 2008 in Stuttgart NanoTruck by-RaBoe 01.jpg 1,134 × 851; 1.33 MB
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Didacta 2008 in Stuttgart NanoTruck by-RaBoe 02.jpg 1,134 × 851; 1.32 MB
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Didacta Pelikan 01.jpg 1,134 × 851; 1.31 MB
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DispersionVSclusterSize.png 336 × 262; 6 KB
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Dispositif.png 369 × 258; 39 KB
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Dongah spincoater TOP8.jpg 4,032 × 3,024; 3.06 MB
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Doped Semiconductor I.png 366 × 469; 10 KB
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Doped Semiconductor II.png 376 × 457; 13 KB
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Dr. Mohsen Jahanshahi.jpg 1,280 × 853; 528 KB
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Drive-in.jpg 529 × 233; 15 KB
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DSoutlet.jpg 880 × 670; 31 KB
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Dual comb chip.png 1,800 × 800; 1.16 MB
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Dual comb schematic.png 1,478 × 807; 301 KB
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EF 605 Lifetime.png 518 × 416; 6 KB
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Efekt lotosového listu.png 1,260 × 186; 13 KB
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Effet lotus-fr.svg 691 × 567; 70 KB
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Egg? No, this is carbon nanotubes!.jpg 1,536 × 2,048; 938 KB
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Electric Pili-down.svg 697 × 579; 481 KB
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Electron microscopy and effect of the e-beam energy.jpg 647 × 210; 92 KB
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Electron Scattering in solid samples.jpg 775 × 590; 88 KB
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Electronic Structure.png 519 × 420; 50 KB
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Electrospinning setup.png 812 × 586; 25 KB
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ElectroSpinz Doris.jpg 1,063 × 706; 354 KB
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Electrostaticforcemicroscope.png 870 × 540; 73 KB
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Elektromos szálképzés.jpg 800 × 577; 61 KB
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Energy landscape for 75 atom Leonard-Jones cluster.tif 1,513 × 2,475; 2.27 MB
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Esempioplasma.JPG 460 × 300; 15 KB
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Example resistive pulse sensing time trace.svg 800 × 512; 14 KB
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Example-cod-graph1.png 1,927 × 491; 31 KB
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Example-cod-graph2.png 2,162 × 669; 22 KB
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Examples of Sculpturenes.png 954 × 646; 582 KB
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Fabrication of DNA origami nanostructures.svg 1,280 × 720; 56 KB
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Fabrication of nanosheet by cast film method.JPG 5,184 × 3,456; 4.67 MB
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Fe–Ca–Zr hybrid metal oxide nanomaterial.jpg 898 × 1,324; 139 KB
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Fig.1 This is a Nanotechnology Development in Worlds and U.S..png 679 × 207; 54 KB
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Fig1 mp.jpg 797 × 640; 129 KB
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Figura 1. Formas alotrópicas do carbono.jpg 720 × 540; 18 KB
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FilamentRod.jpg 163 × 195; 2 KB
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FITR penetration depth German.svg 800 × 500; 85 KB
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Foglet stimulacra.jpg 465 × 350; 25 KB
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Foglet.jpg 640 × 480; 28 KB
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Forme d'onda di tensione e corrente.jpg 960 × 720; 27 KB
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Fornaci.jpg 1,063 × 646; 36 KB
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Forno a pareti riscaldate.jpg 760 × 515; 16 KB
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Freitas-3-2002-zyvex.webp 561 × 698; 30 KB
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Frit-compression.jpg 480 × 376; 43 KB
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Gap silicio.jpg 812 × 250; 13 KB
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Get Your Nanotech Here.jpg 1,767 × 2,275; 1.56 MB
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Girls and Nanotechnology.jpg 960 × 540; 41 KB
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Gold nanocages application.jpg 448 × 306; 34 KB
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Gold nanocages application.pdf 700 × 477; 39 KB
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Gold nanocages optical properties.jpg 806 × 848; 155 KB
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Gold nanocages optical properties.pdf 404 × 425; 160 KB
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Gold nanocages synthesis.jpg 1,689 × 423; 99 KB
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Gold nanocages with truncated corners.jpg 1,000 × 963; 246 KB
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Gold nanocages with truncated corners.pdf 500 × 481; 252 KB
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Gold nanocages-sharp corners.jpg 997 × 1,039; 183 KB
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Gold nanocages-sharp corners.pdf 500 × 520; 189 KB
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Gold Nanostars.jpg 963 × 457; 90 KB
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Gold Nanowire Array (Abstracted).jpg 1,280 × 842; 366 KB
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Gold Nanowire Array.jpg 1,280 × 960; 723 KB
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Gold surface chemistry.jpg 635 × 477; 34 KB
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GoldNanopart 50nm3.jpg 736 × 574; 47 KB
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Government funding for nanotechnology research (US$ million).jpg 654 × 165; 58 KB
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GrapheneFlower.tif 1,024 × 768; 794 KB
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Hamilton-circuit-ICS.png 2,518 × 2,240; 106 KB
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Hartree-Fock.png 720 × 540; 8 KB
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Helical nanomotor.jpg 608 × 392; 58 KB
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Heteroatom.jpg 692 × 667; 48 KB
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Hexamethylbenzene.gif 574 × 291; 3 KB
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Hexathiapentacene.png 1,079 × 758; 16 KB
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Hublot.png 524 × 354; 371 KB
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Ibm-7nm-chip.jpg 3,000 × 2,026; 2.45 MB
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IC Nanotechnology 2400X.jpg 1,157 × 1,169; 522 KB
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ICN2 Logo.png 290 × 99; 23 KB
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ILD(2).jpg 218 × 185; 29 KB
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Image Nanophotonique.jpg 1,023 × 796; 235 KB
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Imagem Impressão por Nanotransferência.png 556 × 400; 9 KB
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Immagine1.jpg 638 × 438; 17 KB
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Impressionism in a semiconductor.jpg 2,560 × 1,920; 2.42 MB
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Infographic – Engineered nanomaterial (ENM) Classifier.jpg 2,000 × 1,536; 1.06 MB
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Infographic – Lifecycle analysis of engineered nanomaterials (ENM).jpg 2,000 × 1,536; 1.31 MB
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Intelligent Design22.jpg 1,679 × 1,626; 1.17 MB
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Iridiscent Meat.png 560 × 580; 318 KB
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Lab hallway.jpg 4,609 × 2,592; 2.43 MB
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Langmuir–Blodgett film scheme 1.jpg 1,103 × 331; 181 KB
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Langmuir–Blodgett film scheme 2.jpg 867 × 544; 155 KB
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Large meta SEM.png 1,510 × 960; 766 KB
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Layer-by-layer.jpg 949 × 423; 319 KB
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LB شماتیک روش.png 621 × 667; 128 KB
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Littledice.tif 1,024 × 768; 794 KB
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LM10 NTA2.png 487 × 529; 156 KB
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LM20 Instrument.JPG 3,264 × 2,448; 4.91 MB
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LO Matrix.PNG 640 × 480; 301 KB
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LO steps.PNG 685 × 272; 166 KB
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LSC-scheme for wikipedia.gif 772 × 431; 27 KB
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MacchinaRTA.jpg 545 × 460; 15 KB
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Mallory511ProjectFigure1.png 594 × 225; 7 KB
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Masking.png 1,016 × 229; 45 KB
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Masking2.png 935 × 188; 39 KB