Silicon crystal, light micrograph
Wall Art and Photo Gifts from Science Photo Library
Silicon crystal, light micrograph
Light micrograph taken with episcopic lighting and Normarski Interference Contrast (DIC) of a specimen of pure 99.999999 Silicon. This is the poly-crystal Silicon that is left at the bottom of the crucible after the single crystal is grown and removed. The pure Silicon crystal is cut with diamond saws into thin slices called wafers and the chips are photo etched onto the surface. The remaining poly crystal Silicon is now used primarily to make solar cells. There is enough Silicon in this piece to make many hundreds of computers. Horizontal object size: approximately 4mm
Science Photo Library features Science and Medical images including photos and illustrations
Media ID 9241209
© PASIEKA/SCIENCE PHOTO LIBRARY
Chips Computer Equipment Conductor Crystal Electronics Element Metalloid Microchip Micrograph Microprocessor Mineralogy Printed Circuit Silicon Silicon Chips Silicon Wafer Solar Cell Solar Cells Wafer Wafers
EDITORS COMMENTS
This print showcases a mesmerizing view of a silicon crystal, captured under the lens of a light microscope. The image is illuminated using episcopic lighting and Normarski Interference Contrast (DIC) techniques, revealing the intricate details of this pure 99.999999 silicon specimen. The poly-crystal silicon depicted here is what remains at the bottom of the crucible after a single crystal has been grown and extracted. To utilize its potential, diamond saws are employed to cut thin slices called wafers from this pristine crystal. These wafers serve as the foundation for chips that are meticulously etched onto their surface. Interestingly, this particular piece contains enough silicon to manufacture numerous computers, emphasizing its significance in modern technology. However, it finds another crucial purpose today - primarily being used in the production of solar cells. Silicon's versatility as both an excellent conductor and an essential element makes it indispensable in various industries such as electronics and mineralogy. Its properties enable efficient energy conversion within solar cells while also playing a vital role in printed circuits, microchips, microprocessors, and other computer equipment. Alfred Pasieka's expertly captured photograph offers us a glimpse into the microscopic world where science meets artistry. It reminds us of how something seemingly small can have immense potential when harnessed with precision and innovation.
MADE IN AUSTRALIA
Safe Shipping with 30 Day Money Back Guarantee
FREE PERSONALISATION*
We are proud to offer a range of customisation features including Personalised Captions, Color Filters and Picture Zoom Tools
SECURE PAYMENTS
We happily accept a wide range of payment options so you can pay for the things you need in the way that is most convenient for you
* Options may vary by product and licensing agreement. Zoomed Pictures can be adjusted in the Cart.