Contact

If you have questions, please first read the competition rules. If you cannot find your answer, contact:  

Prof. Babak Anasori

Competition creator and chair

banasori@iupui.edu

To see the image credits and complete list of NanoArtography images, go to our Facebook page: 

https://www.facebook.com/NanoArtography

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© 2023 Babak Anasori

Nanoartography 2019

2019 Award Winners
Click on the images to see them in full size.

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FIRST PLACE

Nanopetals

Mamidi Suresh, Indian Institute of Technology Hyderabad, India 

 

This colored SEM image shows cobalt oxide nano pedals derived from Metal-Organic Framework. The unique morphology enables an ultra-fast charging with outstanding specific capacities when tested as an anode in Li-Ion batteries. The image width is 0.09  mm.

SECOND PLACE (tie three ways)

2D Liquid Crystalline World

Emma Ward, University of Brighton, UK

 

An electro-active thermotropic liquid crystal layer was sandwiched between titanium carbide (Ti3C2Tx MXene) spin-coated glass. With the MXene coating acting as a transparent conductive electrode, an electric field was applied causing the optical effect observed using a polarizing optical microscope with x40 magnification. 

SECOND PLACE (tie three ways)

Fiber Knot

Ariana Levitt, Drexel University, Philadelphia, PA, USA

 

The image shows a Ti3C2Tx MXene composite fiber prepared via electrospinning after uniaxial tensile testing. Before stretching, the fiber was straight and rod-like. After stretching until failure (over 60% strain), the fiber naturally coiled onto itself, creating a MXene fiber knot. Image width is ~0.35 mm, and  fiber diameter is ~0.03 mm.

SECOND PLACE (tie three ways)

Sweet Tubes

Ricardo Tranquilin, Federal University of Sao Carlos, Brazil

 

The general idea of this work is the association of nature with microscopic images, both in their shapes and colors, so it is possible to converge the microscopic world to the common world, where so we can show that this small world works with the same forms of the macro world. Also take a special look at the images that exhibit abstract forms. The material presented in this image is tungsten trioxide. 

THIRD PLACE (tie four ways)

Heather

Irene Heggstad, University of Bergen, Norway

 

Photography of heather-in collage with micrography of pollen of heather. Pollen size is about 0.025 mm.

THIRD PLACE (tie four ways)

Landscape of a Wasp

Daniel Minner, Indiana University-Purdue University Indianapolis, IN, USA 

 

Images obtained from the head of a wasp using field emission scanning electron microscopy.

THIRD PLACE (tie four ways)

Crystal Harvest​

Sarah Gleeson, Drexel University, Philadelphia, PA, USA

 

Calcium phosphate mineral grows into large, plate-like sheets from the polymer substrate it was deposited onto. These flat, jagged crystalline sheets grow outwards surrounding a center of smaller mineral crystals. Image width is 0.008 mm.

THIRD PLACE (tie four ways)

Starry Night with PMMA Ghost

Kanit Hantanasirisakul, Drexel University, Philadelphia, PA, USA

 

This is an SEM image of PMMA residual on Si/SiO2 wafer. Usually, Si wafer is coated with a thin layer of PMMA to protect it from being scratched and deposition of dust. This protective layer is supposed to be removed by cleaning the wafer in acetone prior to being used. This particular wafer, however, was not cleaned properly. As a result, the remaining PMMA ghosts are haunting me the rest of the Starry Night for not being careful with my experiments. Image width is 0.05 mm.

PEOPLE'S CHOICE

NiO Nano-urchins

Meenaketan Sethi, National Institute of Technology Karnataka (NITK) Surathkal, India

This type of pretty array of nanourchins was formed while attempting to synthesize NiO. The high-temperature calcination (400 ºC for 6hours) of Ni(OH)2 leads to the formation of porous urchin shape. This image was captured using a field emission scanning electron microscope (FESEM)and false colors were added by using computer graphics software. The sea and fish are the only things added to the image. We believe that this kind of unique morphology will be highly beneficial for energy and environmental applications. The image width is 0.001 mm. 

INDIANA UNIVERSITY-PURDUE UNIVERSITY INDIANAPOLIS (IUPUI) PEOPLE'S CHOICE

Sea Flowers Leaves

Pias Kumar Biswas, Indiana University-Purdue University Indianapolis, IN, USA 

 

 

This image represents an Air baked Vanadium Pentoxide (V2O5) which is one of the potential cathode materials for Lithium-ion batteries. Xerogel of V2O5 is freeze-dried followed by annealing process which possesses the shape of underwater sea flowers leaves. Image width is 0.001 mm.

DREXEL PEOPLE'S CHOICE

Dragon’s Feast

Zhengtao Chen, Drexel University, Philadelphia, PA, USA

 

 

The image presents the cross-sectional area of a  semicrystalline poly(fluoroalkylacrylate) coating on a silicon substrate. The polymer crystals provide a unique morphology with a base layer under a vacuum system. Image width is ~0.005mm.

HONORABLE MENTION

The Lost Flower of Snegurochka (“Snow Maiden”)

Rajashree Konar and Gilbert Daniel Nessim, Bar-Ilan University, Israel 

 

 

The flowers are of Silver Sulfide synthesized using an Atmospheric Pressure CVD. The microstructure has unique flowers growing at the tip of the hollows. Image size is about 0.004 mm. 

HONORABLE MENTION

Zinc Oxide Sunflower

Sina Abdolhosseinzadeh, EPFL-Empa,  Zurich, Switzerland 

 

A sol-gel deposited thin film of zinc oxide has cracked upon fast cooling. The image width is ~ 0.15 mm. 

HONORABLE MENTION

Nanogalaxy

Susanna Gevorgyan; Robin Schubert, Yerevan State University, Armenia

 

 

The image presents Ag nanoparticles (NPs) in a polymer. The Ag NPs were synthesized using the Green Synthesis method. As a source of oxidizing and reducing agents was used Royal Jelly –honey-bee product. Image width is 0.0001 mm.

HONORABLE MENTION

Sweet Fragrance by spring flower of ZnO

Sonia Siwatch, Kurukshetra University, Haryana, India

 

 

ZnO spring flower was grown by a simple chemical bath deposition method. The synthesis solution contains zinc nitrate hexahydrate as a source of zinc, ammonium hydroxide as a strong base and hexamethylinetetramine (HMTA) as a weak base. Tremendous amount of ZnO Kernel clumps with each other and appear as a broad root for the growing of ZnO spring flower-like structure, which is ready to spread fragrance all around. Image width is about 0.012 mm. 

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A complete list of 2019 finalists is available on NanoArtography facebook page. 

Click here to see the 2019 finalists.