clipped from: www.wired.com   
WIRED
clipped from: www.wired.com   
Silicon oxide nanowires
The physics professor colorized his award-winning crop to enhance their resemblance to real sunflowers.
clipped from: viewer.zoho.com   

clipped from: www.wired.com   
image of a polymer
an ultrathin film of the beautiful substance
clipped from: viewer.zoho.com   

clipped from: www.wired.com   
organic transistors for cutting-edge electronic devices
clipped from: viewer.zoho.com   

clipped from: www.wired.com   
Nickel-titanium alloys
clipped from: viewer.zoho.com   

clipped from: www.wired.com   
zinc oxide nanoneedles
resembled the mountains as portrayed in classical Chinese paintings
clipped from: viewer.zoho.com   

clipped from: www.wired.com   
a tantalum oxide crystal
It looked like a man running toward the edge of a cliff.
clipped from: viewer.zoho.com   

clipped from: www.wired.com   
a nearly flawless gold crystal
clipped from: viewer.zoho.com   

clipped from: www.wired.com   
potassium niobium oxide
resembling a distant galaxy
clipped from: viewer.zoho.com   

clipped from: www.wired.com   
it looks like a stained-glass window
this image shows the magnetic domains of a thin iron film
clipped from: viewer.zoho.com   

clipped from: www.wired.com   
polymers covering a porous silicon mold
it looked like a forest bordering the Hudson River
clipped from: viewer.zoho.com   

clipped from: www.wired.com   
Sturdy membranes that allow protons to pass through them are the most important components of a fuel cell.
Samuel Rey-Mermet combined cerium oxide with a hexagonal nickel grid to make a sturdy substance which allows the hydrogen ions to move freely.
clipped from: viewer.zoho.com