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Published byErika Bishop Modified over 6 years ago
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INTRO TO TDM AND BUM TDM – Top Down Manufacturing
BUM – Bottom Up Manufacturing
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TOP DOWN MANUFACTURING
Materials modified Cutting, drilling, milling Machinery used Many steps needed Primary method in integrated circuits industry
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BOTTOM UP MANUFACTURING
Similar to way nature builds objects Self-assembly Atomic force microscope The future of nano-manufacturing?
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MOORE’S LAW Integrated circuits (ICs) are electronic circuits on a single piece of silicon Circuits on ICs are made from many transistors Since 1965 trend is for the number of transistors per integrated circuit to double every two years In 1965 there were 30 transistors per chip Today, more than 1 billion transistors per chip
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MOORE’S LAW
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TDM IN SEMICONDUCTOR MANUFACTURING
Transistors are semiconductor devices Transistors connected together form circuits Integrated circuits consists of many transistors Many ICs built simultaneously on silicon wafers Transistors are built first, then interconnected ICs are built in a chip fab
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TDM IN SEMICONDUCTOR MANUFACTURING
ICs are built layer by layer Process steps include: Wafer photolithography ion implant Deposition metallization Steps repeated many times for each IC
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PHOTOLITHOGRAPHY Mask is high quality glass
Mask has areas marked to block transmission of light One mask for every layer of the IC Photoresist covers IC Ultraviolet light shines through mask onto photoresist Photoresist affected by light
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PHOTOLITHOGRAPHY
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PHOTOLITHOGRAPHY Photolithography defines transistor size
Part of process is to reduce image on mask Transistors made of several features Feature size defines how small transistors are Smallest feature size currently is 45nm
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PROBLEM WITH TDM TDM processing reaching physical limits
Difficult to reduce mask images to smaller and smaller levels Requires shorter wave length light (X-rays) Requires more sophisticated optical systems to reduce images This are expensive and technically challenging
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Bottom Up Manufacturing
Possible way to continue Moore’s Law progress Build features one atom at a time Use forces of nature to accomplish this No machining necessary Requires proper environmental conditions
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AFM Atomic force microscope Can image atoms Can move atoms
Forces between atom and ATM tip interact Measurement of forces used to produce image of atom or to manipulate atoms IBM logo made from xenon atoms in 1990
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IBM FROM AFM
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SELF-ASSEMBLY Self-assembly occurs naturally
Smaller features are created Smaller features combine to produce larger features Combinations occur until macro structure is built
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SELF-ASSEMBLY
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SELF-ASSEMBLY
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SELF-ASSEMBLY IN SOAP Soap bubbles consist od soap molecules and water molecules Soap molecule ends react differently with water Hydrophili end links with water easily Hydrophobic end will not link with water Monolayers form to create bubble wall Wall is soap-water-soap
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SELF-ASSEMBLY IN SOAP
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PROPERTIES OF NANOSTRUCTURES
Objects at the nano-scale exhibit unique properties Properties may not exist at larger scales Color Light reflection Order
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COLOR PROPERTIES OF SOAP
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