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UNIT 1
By: Ajay Kumar Gautam
Asst. Prof.
Electronics & Communication Engineering
Dev Bhoomi Institute of Technology & Engineering, Dehradun
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Syllabus
• Introduction to VLSI Technology: Classification if ICs, Scale
of integration, semiconductor and hybrid ICs Features of ICs
• Crystal Growth: monolithic and hybrid ICs, crystal growth,
Czochralski technique of crystal growth, wafer preparation and
specifications, testing, measurements of parameters of crystals,
Fabrication steps
• Oxidation: Theory of growth of Silicon di oxide layer,
calculation of SiO2 thickness and oxidation kinetics, Dry wet and
high pressure oxidation, plasma oxidation, properties of
oxidation, defects induced due to oxidation
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Lecture PlanUNIT-I Introduction to VLSI Technology, Crystal Growth & Oxidation
1 Introduction to VLSI Technology 6/1-3
2 Classification Of ICs, Scale of Integration 6/4-6
3 Semiconductor, Monolithic and Hybrid IC 7/12-14
4 Features of ICs 6/6-7
5 Crystal Growth Cz Technique 1/ 9-13, 17-27
6 Wafer Preparation and Measurements 1/31-44
7 IC Fabrication Steps 4/A1-A5
8 Theory of Growth of SiO2 Layer 1/99-103
9 Oxidation Kinetics 1/99-103
10 Calculation of SiO2 Thickness 1/99-103
11 Dry And Wet Oxidation 1/121
12 High Pressure & Plasma Oxidation 1/121-123
13 Properties of Oxidation 1/125-129
14 Defects Induced Due to Oxidation 1/133-137
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MODULE 1
Introduction to VLSI Technology
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What is a circuit?
• It is the combination of active & passive elements.
• Active elements are those, which can produce gain or can amplify
signals, like transistors or amplifiers.
• Passive elements doesn’t have this kind of capability without
active elements.
• This kind of circuit is known as discrete circuit.
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What is an Integrated Circuit?
• It is an electronic circuit, used almost in all electronic
equipment's.
• It is the combination of active & passive elements, when placed
on the same substrate, usually Si.
• 4 MB DRAM chip is the best example of IC.
• Active elements in an IC can be transistors (BJT or MOSFET) &
are most important part of any circuit.
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Moore’s Law
• Gordon Moore, in 1965 an integrated circuit pioneer and co-
founder of Intel corporation predicted that, the number of
transistors on chip will be double by every 18 months.
• In 1965, Intel fabricated its first processor on 25 µm technology.
• In 2000, Intel fabricated processors on 0.18 µm technology.
• Now-a-days technology used for IC fabrication is 90 nm to 40
nm.
• 90 nm for computer processor
• 40 nm for smart phone.
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Classification of ICs
• There are 5 ways to classify Integrated Circuits.
1. By fabrication
2. By complexity
3. By packing density
4. By application
5. By technology
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1. By Fabrication
a) Monolithic IC – IC which are entirely a single chip of
semiconductor usually Si, are known as monolithic circuit.
b) Hybrid IC – IC which contain one or more monolithic circuit or
individual transistors bounded to an insulating substrate with
passive elements.
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2. By Complexity
a) SSI – components 1 – 10, flip flops & gates.
b) MSI - components 10 – 100, registers & counters.
c) LSI – components 100 – 10,000, ROM, decoders.
d) VLSI – more than 10,000 components, microprocessors & high
capacity memories.
e) ULSI – more than 3 million components.
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3. By Packing Density
• Packing density is defined as no. of components contained in the
unit area of the chip, & is given by; P = log Q,
• where P = packing density & Q = Scale of integration.
a) SSI P < 1
b) MSI 1 < P < 2
c) LSI 2 < P < 4
d) VLSI 4 < P < 6
e) ULSI P > 6
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4. By Application
a) Analog IC – it performs amplification & other functions on
analog signals linearly. Ex: OP – AMP.
b) Digital IC – it performs operations with discrete quantities, i.e.,
information for digital IC is represented by binary digit. Ex:
computer calculator & microprocessor.
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5. By Technology
1. BJT Technology – it is used for high speed.
2. MOSFET Technology - it is used for high packing density.
3. BiCMOS Technology – it is used for high speed as well as high
packing density.
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Advantages of ICs
1. Increased reliability, due to lesser no. of connections
2. Extremely small size, due to fabrication of various circuits onto
a single chip of semiconductor.
3. Lesser weight & space requirements.
4. Low power requirement.
5. Lower cost.
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Disadvantages of ICs
1. ICs are not flexible.
2. It is not possible to produce high power ICs greater than 10
watt.
3. Fabrication of high value capacitors, inductors and transformers
is not possible.
4. If any component in an IC goes out of order, the whole IC has
to be replaced with new one.
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Features of ICs
1. An IC performs complex functions, whereas elementary
devices ( transistors ) can perform same functions only in
combination with other components.
2. Reliability and cost are not affected by increase in functional
complexity of ICs.
3. The size of most of the ICs are comparable with discrete
transistors, but the function performed by an IC is much more
complex.
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Cond….
4. In an IC, the adjacent components are spaced mostly 50 – 100
µm apart, but the components doesn’t change their electrical,
chemical & physical properties. Whereas the parameters are
changed in different. Ex: Change in temperature coefficient due
to variations in temperature.
5. In an IC, interconnection of individual elements is made
through metallization ( i.e. without soldering and welding).
Hence it is more reliable in comparison to discrete components
in which large number of soldering and welding is used.
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Silicon Vs. Germanium
1. Si devices can operate upto 1500 C as compared to 1000 C for
Ge.
2. Si grows a stable oxide, which is important in fabrication if IC
as compared to Ge oxide which is unsuited for device
applications.
3. Silicon is cheaper than Ge.
4. Silicon is easily available near sea beaches as raw material for
silicon wafer preparation.
5. Silicon has low leakage current as compared to that of Ge.
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MODULE 2
Crystal Growth
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Production of Single Crystal Silicon (Si)
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Raw
Material
MGS
(Si)
SiHCl3 + H2
(Gas)
EGS (Si)Si + HCL
(Gas)
CVD ReactorSingle Crystal
Silicon (Si)
Submerged-electrode
arc furnaceCz Technique
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Cond….
• Silicon occurs naturally in form of silica and silicates.
• It is most important semiconductor for the electronic industry.
• More than 95% semiconductor devices are made of silicon.
• It is easy to grow SiO2
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Electronic Grade Silicon
• It is polycrystalline material of high purity.
• EGS is the raw material for the preparation of single crystal
silicon.
• EGS is the one of the purist material available for electronics
industry.
• To obtain EGS, we require a multistep process.
• MGS ( Metallurgical Grade Silicon ) is produced in submerged –
electrode.
• The furnace is charged with quartzite and carbon.
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Fig: Submerged – electrode arc furnace for production of MGS
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Cond….
• Quartzite is the pure form of sand i.e., SiO2.
• In furnace large number of reactions takes place.
• The overall reaction is,
SiC (Solid)+SiO2 (solid) -> Si (liquid) + SiO (gas) + CO (gas).
• This process requires 13 Kwh/kg of power.
• MGS available in this process is then solidified at a purity of
98%.
• The next step is to pulverize the silicon mechanically.
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Cond….
• Now react it with anhydrous hydrogen chloride to form
trichlorosilane (SiHCl3)
Si (solid) +3HCl -> SiHCl3 (gas)+H2 (gas)+Heat
• The reaction takes place at temperature of 300oC using a catalyst.
• EGS is prepared from the purified SiHCl3 in a Chemical Vapor
Deposition (CVD) process.
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Fig: CVD Reactor used for production of EGS
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Cond….• The chemical reaction is a hydrogen reduction of trichlorosilane.
SiHCl3 (gas) + H2 (gas)-> Si (Solid) + 3HCl (gas)
• A slim rod of silicon serves as nucleation point for the deposition of silicon.
• This process takes many hours & will give polycrystalline silicon (EGS) on slim rod of silicon.
• The polycrystalline silicon (EGS) is 0.2 m or greater in diameter & several meter in length.
• This EGS can be cut from these rod as single chunks (solid piece).
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Czochralski (Cz)technique of crystal growth
• Polycrystalline silicon may contain many defects.
• So in order to fabricate an IC, it must be nearly perfect.
• Therefore we need to produce single crystal silicon.
• Cz process is the basic technique to produce the single crystal
silicon.
• Cz process is a liquid-solid mono-component system.
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Fig: Cz Crystal Grower
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Cond….
• In the Cz grower, we have big quartz chamber, with gas inlet and
outlet & some pumps.
• Pumps are required to maintain the pressure in quartz chamber.
• There is one another opening through which a pull rod is passed.
• There is a big cup (crucible), in which the poly crystalline silicon
is placed in order to grow single crystal silicon.
• Crucible is usually made of quartz which is SiO2.
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Cond….
• Some oxide may come to the crystal from the crucible, so this
crucible can be usually used once.
• This is because when, Cz grower get cooled down, then because
of the thermal mismatch the quartz crucible cracks.
• This quartz crucible is usually placed inside a graphite susceptor,
which is outer jacket to the quartz crucible.
• The susceptor, is surrounded by RF heating elements.
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Cond….
• Cz crystal grower has mainly four subsystem.
1) Furnace
2) Crystal pulling mechanism
3) Ambient Control
4) Control system
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Cond….
• Furnace is the most important part of the Cz crystal grower.
• The furnace is heated to a temperature of 1690 K, which is
slightly greater than melting point (1685 K)of silicon.
• Inside the furnace, we have a quartz crucible, a quartz susceptor,
a heater and cooling for outer quartz chamber.
• The crystal pulling mechanism includes pull rod, a seed crystal
and rotation mechanism (CCW).
• At the end of the pull rod, the small seed crystal is fixed in a
chuck.
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Cond….
• The pull rod is rotated (CCW) and pulled up very slowly at the
same time, the quartz crucible is rotated in the opposite direction
(CW).
• The ambient control is very important in the Cz crystal grower.
• There must not be oxygen inside the quartz crucible, because it
will react with the polycrystalline silicon (EGS).
• So, the quartz chamber is filled up with an inert ambient, i.e.,
organ helium or nitrogen.
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Cond….
• The control system provides control of temperature, crystal
diameter, pull rate and the rotation speed.
• The control system may have sensors and outputs.
• For the crystal growth, the polycrystalline silicon is placed inside
the quartz crucible & the ambient condition is created.
• The furnace is heated to a temperature of 1690 K, the
polycrystalline silicon (EGS) gets heated.
• A controlled amount of dopant (boron or phosphorus) is added
to the melt to make the silicon either P type or N type.
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Cond….
• Initially the seed crystal is not in contact with the melt.
• The pull rod is rotated and lowered gradually till the seed crystal
touches the melt surface.
• While the crucible is rotated in the opposite direction.
• When molten silicon is attached to the seed crystal and it
becomes identical to the seed, & get solidified.
• After that the solidified silicon crystal can be pulled up.
• So, using the Cz technique, we have cylindrical single crystal
silicon known as ingot.
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Cond….
• By controlling temperature and pulling rate, desired diameter of
the silicon ingot can be obtained.
• The ingot is cooled and is removed to make wafers.
• Usually the ingot has diameter of 200 mm and length 1000 mm.
• The pull rate must be adjusted very carefully.
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How the Pull Rate is adjusted
• The pull rate should me adjusted carefully, so that we can get
good quality of crystal.
• If the pull rate and thermal conditions are not adjusted, the seed
crystal can also get melted.
• So, the Cz technique is much more complicated technique.
• Since, the Cz technique is liquid solid monocomponent system,
there is some heat transfer.
• So, we need to consider the Heat transfer Equation.
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Cond….
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Cond…
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Cond…
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Dopant incorporation during the crystal growth
• Dopants are added to the melt in order to provide a controlled N
or P doping level in the wafer.
• Dopant incorporation process is accomplished by dopant
segregation.
• Generally impurities are added to the melt.
• This process is known as segregation.
• The degree of segregation is characterized by segregation
coefficient k0, & is given by:
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0s
l
Ck
C
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Cond…
• Where, Cs & Cl are the equilibrium concentrations of the
impurities of the impurities in the solid (crystal) & liquid (melt)
respectively near the solid-liquid interface.
• For most of the common impurities k0 < 1, i.e., Cs < Cl.
• It means impurities are not coming into solid, they are rejected by
the solid.
• Note that purpose of incorporating impurities to the melt is only
to change its electrical properties, i.e., to make it either N or P
type.
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wafer preparation
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Crystal Growth
Shaping
Slicing
Lapping and Edge
Grind
Etching
Polishing
Cleaning
Testing
Packaging
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Shaping
• The silicon crystal obtained after Cz process is called “ingot”.
• The first shaping operation removes the seed and tang ends from
the ingot.
• The ingot surface is then grounded throughout to an exact
diameter.
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Fig: Shaping
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Flat grind
Diameter grind
Preparing crystal ingot for grinding
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Wafer Slicing
• Once the ingot surface is made smooth, ingot is sliced in wafers
by high speed “diamond saw”.
• Slicing is done by inner diameter sawing using a diamond saw.
• It is rotated at a high speed and then moved across the ingot to
obtain wafer slices.
• Slicing is done very slowly.
• Thicker wafers are usually preferred.
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Lapping & Edge Grind
• After slicing there is a variation in the thickness of the sliced
wafer.
• So, it can’t be used directly for IC fabrication.
• The wafers a mechanically lapped on both the sides.
• Lapping is done in order to remove the cracked or damaged
surface of the wafer.
• After lapping edge grinding takes place.
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Fig: Lapping Machine
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Etching
• Etching is the process of selectively removing unwanted
semiconductor material from the wafer.
• Wet etching: chemical solution is used.
• Dry Etching: sputtering method is used.
• Chemical etching removes the remaining damaged and
contaminated regions of the wafer.
• A mixture of HF & HNO3, is used for chemical etching.
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Wafer Polishing
• The purpose of polishing is to provide smooth surface of the
wafer.
• The wafer surface is polished to mirror like finish. Sep
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Fig: Wafer Polishing
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Cleaning
• Wafers are cleaned and dried for use in IC fabrication.
• The final wafer thickness is about one third of the sliced wafer.
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Testing
• Wafer testing is a step performed during semiconductor device
fabrication.
• During this step, performed before a wafer is sent to die
preparation.
• All individual integrated circuits that are present on the wafer are
tested for functional defects.
• The wafer testing is performed by a piece of test equipment
called a wafer prober.
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Packaging
• Packaging is done in order to protect the wafers from moisture &
contaminants.
• The completed packages are inspected, sealed, and marked with a
special ink to indicate product type, date, package code, and
speed.
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IC Fabrication steps
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Wafer
preparation
oxidation
Diffusion
MetallizationPhotolithography
Etching Packaging
Epitaxy Testing
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Epitaxy
• Epitaxy is a combination of two Greek words, epi means upon
and taxis means ordered.
• It is a process of growing thin crystalline layer on a crystalline
substrate.
• 2 kind of epitaxial process CVD & MBE.
• CVD is a chemical process whereas in MBE, there is no chemical
reaction involved.
• 2 kind of epitaxy, homoepitaxy & heteroepitaxy.
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Oxidation
• Process of growing film on the surface of silicon.
• Takes place at 1000 – 12000 C.
• It serves as mask against diffusion of dopants.
• It is used as isolation between two device.
• It is used as Gate oxide for MOS devices.
• It provides electrical isolation of multilevel metallization.
• It as used as surface passivation.
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Photolithography
• Process of transferring geometrical pattern on the glass plate to
the surface of the wafer.
• To transfer the pattern, the wafer is coated with light sensitive
material called photoresist.
• The photoresist is then placed on the wafer.
• This is exposed to ultraviolet light.
• The photoresist under the opaque regions of the glass plate is
unaffected.
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Diffusion
• Process of introducing impurities into selecting regions of a
wafer to form junctions.
• Diffusion allows the formation of source and drain regions. Sep
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Etching
• Etching is the process of selectively removing unwanted
semiconductor material from the wafer.
• Wet etching: chemical solution is used.
• Dry Etching: sputtering method is used.
• Chemical etching removes the remaining damaged and
contaminated regions of the wafer.
• A mixture of HF & HNO3, is used for chemical etching.
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Metallization
• Process of interconnecting various components to form desired
IC.
• Initially metal is deposited over the entire surface of the wafer.
• After that etching takes place.
• Metallization is usually done by sputtering method.
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Testing
• Wafer testing is a step performed during semiconductor device
fabrication.
• During this step, performed before a wafer is sent to die
preparation.
• All individual integrated circuits that are present on the wafer are
tested for functional defects & electrical properties of the device.
• The wafer testing is performed by a piece of test equipment
called a wafer prober.
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Packaging
• Packaging is done in order to protect the wafers from moisture &
contaminants.
• The completed packages are inspected, sealed, and marked with a
special ink to indicate product type, date, package code, and
speed.
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Measurements of parameters of
crystals• Resistivity measurements are performed on flat ends of the
crystal by four-probe technique.
• Current I (mA) is passed through the outer probes and voltage V
(mV) measured between the inner probes.
• The resistivity ρ (Ω-cm) is measured by the formula;
ρ=(V/I) 2πS
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Fig: Four-point probe measurement on crystal end
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MODULE 3
Oxidation
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Introduction
• Process of growing film on the surface of silicon.
• Takes place at 1000 – 12000 C.
• Oxides are used as
1. Masking element against diffusion of dopants.
2. Gate oxide in MOS devices
3. Isolation between devices
4. Electrical isolation of multilevel metallization
5. Used as surface passivation
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Cond…
• Since silicon has great affinity for oxygen, so it is very easy to
oxidize silicon.
• There are a lot of methods for oxidation.
• If silicon is boiled in nitric acid, oxide layer will be formed, it is
called chemical oxidation.
• Thermal oxidation is another method & is widely used in VLSI
technology.
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Thermal Oxidation
• For thermal oxidation, take Si sample.
• Put it inside a furnace.
• Raise the temperature.
• Allow either oxygen or water vapor.
• Silicon will react either with oxygen or water to form SiO2.
• Si+O2 -> SiO2 Dry Oxidation
• Si+2H2O -> SiO2+2H2 Wet Oxidation
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Oxidation Growth Kinetics
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Cond…
• Consider the Groove model for thermal oxidation of the silicon.
• Initially SiO2 layer is not present.
• We have oxidizing species in the gas.
• Once the oxidizing species has reached the gas-oxide interface, it
must diffuse through the existing oxide layer in order to reach the
Si-SiO2 interface.
• Once these oxidizing species reach the Si-SiO2 interface, it must
react with silicon.
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Cond…• We have three fluxes F1, F2 & F3.
• Flux is the number of molecules or atoms crossing an unit area in an unit time.
• CG is the concentration of the oxidizing species in the gas.
• CS is the concentration of the oxidizing species next to the gas-oxide interface.
• C0 is the concentration at outer surface of the oxide.
• Ci is the concentration at inner surface of the oxide.
• C* is the equilibrium concentration of the oxidizing species in the oxide layer.
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Cond…
• Where,
F1=hG(CG- CS)
F1= flux of the oxidizing species in the gas.
hG= gas phase mass transfer coefficient.
CG = PG/kT
CS = PS/kT
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Cond…
• According to Henry’s Law “the concentration of a species within
a solid is proportional to the partial pressure of that species in
the surrounding gas”. Sep
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Cond…
•
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Cond…
•
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Cond…
•
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Cond…
•
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Cond…
•
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Calculation of SiO2 Thickness
• SiO2 thickness can be calculated from the flux equations.
• Equating Eq. (2) & (3), we get,
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0
(8)
/(9)
0 i S i
0 S i
0 S i
0 S
S
0 S
S
i
i
s
DC -C = K C = F
x
D DC = K C
x x
DC = D xK C
FDC = D xK
K
DC KF =
D xK
DC CF dx
C dtDx
K
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Cond…
• Eq. (9) is known as Growth rate of the oxide layer thickness.
• Initially at t=0, x=d0., where d0 is initial oxide thickness.
• Eq. (9) can be solved using initial conditions.
• So, integrating Eq. (9), we will have.
• Where,
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2 02 2 ( ) (10)S i
CDx x = D t
K C
2 00
0
2 (11)2
i
S
C dd D
C D K
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Cond…
• The oxide thickness after an oxidizing thickness t is given by:
• For small values of t,
• For lager values of t,
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2
02 ( )1 1 (12)S
S i
C K tDx
K DC
0 ( ) (13)S
i
Cx K t
C
02 ( ) (14)i
Cx D t
C
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Cond…
• For smaller values of t, surface reaction is rate-limited, the
oxide thickness varies linearly with time.
• As, the oxide layer becomes thicker, the oxidant must diffuse
through the oxide layer to react at the Si-SiO2, interface, & the
reaction becomes diffusion limited.
• For larger values of t, the oxide growth than becomes
proportional to the square root of the oxidizing time, which
results in a parabolic growth rate.
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Cond…
• Eq. (10) can be written in more compact form;
• Where,
• So, Eq. (13) & (14) becomes;
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2 ( ) (15)x Ax B t
0 02 ; 2 & S
S i i
C CD BA B D K
K C A C
( ) (16)
( ) (17)
Bx t Linear region
A
x B t Parabolic region
BLinear RateConstant
A
B Parabolic RateConstant
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Cond…
• So, the Eq. (12) can be written as;
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1/2
21 1 (18)
/ 2 / 4
x t
A A B
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Oxidation Techniques
1. Dry Oxidation
2. Wet Oxidation
3. High Pressure Oxidation
4. Plasma Oxidation
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1. Dry Oxidation
• O2 & HCl are used to grow oxide layer.
• It is also known as HCl dry oxidation.
• It has lower growth rate than wet oxidation.
• HCl is used to improve the electrical characteristics of the oxide
layer.
• It has excellent dielectric properties.
• During the oxidation Cl is concentrated on the Si-SiO2 interface.
• Cl increases the life of the oxide layer.
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Cond…
• The oxide layer formed by HCl dry oxidation is used as gate
oxide in MOS devices.
• This oxide layer has very stable threshold voltage property.
• Reaction involved:
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2 2 2
2 2 2
4 2 2
2 2
HCl O H O Cl
Si H O SiO H
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2. Wet Oxidation
• Also known as pyrogenic (producing heat) wet oxidation.
• Pure H2 & O2 are directly supplied to the furnace.
• Vaporized H2O is obtained by increasing the H2 & O2 in the
furnace.
• The oxide layer is grown by vaporized H2O.
• Advantage of wet oxidation is that, it can employ various partial
pressures of H2O.
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2 2 2
2 2 2
2 2
2 2
H O H O
Si H O SiO H
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3. High Pressure Oxidation
• The oxidation rate can be enhanced at lower temperature by
increasing the pressure of the oxidizing species.
• The increased pressure will allow the oxidizing species to
penetrate the growing oxide layer more rapidly.
• At high partial pressure, the oxidation rate becomes limited by
the reaction rate at the Si-SiO2 interface instead of the oxidants
in SiO2.
• The oxidation rate varies directly with pressure P.
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Cond…
• High pressure oxidation technique has been used mostly on
bipolar devices to increase speed of the devices.
• So for any case, high pressure oxidation can be performed at
lower temperature instead of oxidation at Atmospheric pressure.
• For example, under 10 atm of steam, the oxidation rate at 8500 C
is comparable to that above 12000 C and 1 atm of steam.
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Fig: Higher growth rate achieved at lower temperature
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4. Plasma Oxidation
• Plasma oxidation process offers the possibility of growing high
quality oxides at temperature even lower than those achieved with
the high pressure technique.
• It is low temperature vacuum process.
• The plasma is produced by high frequency discharge or a DC
electron source.
• Place the wafer in a uniform density region of plasma.
• Biasing it positively below the plasma potential.
• Allow it to collect active charged oxygen species.
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Cond…
• The growth rate of oxide increases with increasing substrate
temperature, plasma density and substrate dopant concentration.
• The quality of oxide grown by this process can be as good as
that of thermally grown SiO2.
• Anodic plasma oxidation can grow thick oxides on the order of
1µm at lower temperature (< 6000 C) at growth rate up to about
1µm/h.
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Oxide properties
• There 3 properties of oxides;
1. Masking properties
2. Oxide charges
3. Oxide stress
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1. Masking properties
• SiO2 layer is used as mask.
• During the process of IC fabrication, the temperature of the Si
wafer is very high to derive in dopants into the silicon.
• These dopants are near the Si surface and occurs because of the
process of ion-implantation & diffusion.
• So, it is very important that dopants should enter into the Si
wafer and not into SiO2.
• So, the SiO2 layer is responsible for the dopants are blocked by
SiO2 and should enter into Si.
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Cond…
• Usually 0.5 µm to 0.7 µm oxides are used to mask.
• The common impurities used are phosphorus, antimony and
arsenic for n type doping and boron for p type doping.
• All the impurities must have small diffusion coefficients in oxide
so that SiO2 serves as effective mask for them.
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2. Oxide charges
• At the Silicon-Oxide interface, there is a transition region
between crystalline silicon and amorphous silica.
• Various charges and traps are associated with the thermally
oxidized silicon.
• A charge at the interface can induce a charge of the opposite
polarity in the underlying silicon.
• This charge affects the ideal characteristics of the MOS devices.
• See, figure on next slide.
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Fig: Charges in thermally oxidized silicon
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Cond…
• The net number of charges at Si-SiO2 interface is given by:
N=Q/q; where;
• N is net number of charges per unit area (number/cm2) at Si-
SiO2 interface.
• Q is net charge per unit area (Coulombs/cm2) at Si-SiO2
interface.
• q is electric charge in Coulombs.
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Cond…
• There are four kind of oxide charges.
1. Interface trapped charges
2. Fixed oxide charges
3. Mobile ionic charges
4. Oxide trapped charges.
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Cond...
• Interface-trapped charges Qit can interact electrically with the
underlying silicon.
• These charges results from several sources, like structural
defects, metallic impurities or bond-breaking process.
• So, in order to neutralize the Interface-trapped charges Qit, a low
temperature (450 0C)hydrogen anneal is required.
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Cond…
• The fixed oxide charges Qf are located in the oxide within 30 0A of the Si-SiO2 interface.
• Qf can’t be charged or discharged. It’s density varies from
1010/cm2 to 1012/cm2.
• Qf is related to the oxidation process.
• For electrical measurements Qf can be considered as a charge
sheet at Si-SiO2 interface.
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Cond…
• Mobile ionic charges QM is formed due to the alkali ions such
as Na, K & Li as well as –ve ions and heavy metals.
• The alkali ions are mobile even at room temperature.
• When electric fields are present, density of QM, varies from
1010/cm2 to 1012/cm2 or higher and are related to processing
materials, chemicals ambient or handling.
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Cond…
• Oxide trapped charges Qot may be +ve or –ve due to holes or
electrons trapped in the bulk oxide.
• The charge associated with defects in the SiO2, may occur from
ionizing radiation or higher currents in the oxide.
• It can be annealed out by low temperature.
• Density of Qot, varies from 1009/cm2 to 1013/cm2.
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3. Stress in Oxide Layer
• Stress occurs because of temperature variations during the
oxidation.
• Stress associated with a film is important, because high stress
levels can contribute to wafer warpage, film cracking and defect
formation in the underlying silicon.
• At room temperature stress value is about 3x109 dyne/cm2 is
obtained.
• So, stress-free oxidation is usually preferred.
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Defects Induced Due to Oxidation
• The defects may be introduced in silicon wafer while oxidation
takes place.
• These defects may degrade the performance of integrated
circuits.
• So, care must be taken during the process of oxidation.
• 2 kind of defects occurs basically;
1. Defects due to oxide isolation
2. Staking faults due to oxidation.
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1. Defects due to oxide isolation
• In VLSI, junctions are usually isolated with oxide-isolation
technique.
• The stress along the edge of oxidizing area may damage the
silicon substrate.
• Due to this stress, the leakage current of nearby or adjacent
devices get increased.
• So in order to prevent defects due to oxide isolation, the
temperature should be sufficiently large (9500 C)during oxidation.
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2. Staking faults due to oxidation
• The stacking faults may occur because of thermal oxidation of
silicon.
• These faults are structural defects of the silicon lattice.
• During the thermal oxidation, if the oxidation temperature is
high the oxidant species penetrate silicon at very high speed.
• So, some of the silicon atoms in the silicon lattice may be
displaced.
• This creates structural defects in the silicon lattice.
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Cond…
• The stacking fault is temperature dependent.
• For higher oxide thickness, shorter stacking faults are grown, if
the oxidation temperature is lower.
• For oxide thickness of 1 µm, stacking fault is completely
suppressed when temperature is below 950 0C.
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Review Questions1. What is IC’s? Describe the types of IC’s?
2. What are the features of ICs?
3. What are the advantages & disadvantages of ICs?
4. Describe IC fabrication Steps.
5. How pull rate is adjusted during CZ crustal growth? Explain how
dopant incorporation takes place during Cz crystal growth process?
6. What is single crystal growth? Describe CZ crystal growth technique.
7. What is the Pull Rate in CZ technique? How the Pull Rate is
controlled during the CZ crystal growth process?
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Cond…8. Explain wafer processing techniques used in IC technology.
9. Why oxidation is done? Explain the chemistry of oxidation and
kinetic of oxide growth.
10. Compare dry and wet process of silicon oxidation.
11. What is High Pressure oxidation? Describe the wafer processing steps.
12. What are disadvantages of IC`s over discrete circuits?
13. What are monolithic and hybrid ICs.
14. How resistivity of the crystal is measured? A boron-doped crystal is
measured at its seed end with a four-probe of spacing 1mm. The
(V/I) reading is 10 ohms. What is the resistivity at seed end?
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Cond…15. Describe the preparation method for metallurgical grade silicon
(MGS).
16. Describe the preparation method for electronic grade silicon (EGS).
17. What are seed end and tang end of silicon boule. How they are obtained.
18. Describe how the shaping of ingot is done?
19. What is the need of wafer etching and polishing? Explain the process.
20. What are Oxide-Induced defects?
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Cond…
21. What are the properties of Oxide Layer?
22. Write short note on masking property of oxidation layer.
23. What is oxidation? Explain kinetics behind the oxide growth.
24. What are linear and digital IC?
25. Explain the process in which CVD reactor is used.
26. Calculate oxide thickness. Also show that,
reduces to for short time and to for long time,
where x = oxide thickness
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1/2
21 1
/ 2 / 4
x t
A A B
( )B
x tA
( )x B t
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Cond…27. Discuss different steps in preparing wafers from the raw silicon.
28. Explain the application of SiO2 layer in IC fabrication.
29. Show that to grow an oxide layer of thickness x, a thickness of 0.44x of silicon is consumed.
30. State Moore’s law.
31. Why SiO2 is an important component in electronics?
32. A silicon ingot with 0.5x1016 boron atoms/cm3 is to be grown by Cz method. What should be the concentration of boron in the melt to obtain the required doping concentration? The segregation coefficient of the boron is 0.8.
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References1. S.M. SZE/ VLSI Technology / M Hill. 2009/2nd Edition
2. S. K. Gandhi/VLSI Fabrication Principles/Wiley/2nd edition
3. S.A. Campbell / The Science and Engineering of Microelectronic
Fabrication / Oxford 2008/2nd edition
4. Sedra & Smith/ Microelectronic Circuits 2004/Oxford/5th edition
5. James D. Plummer/ Silicon VLSI Technology: Fundamentals,
Practice, and Modeling/Pearson/2nded
6. Mr. Rajesh Agarwal/VLSI Technology and Design/Technical
Publications/1st Ed./
7. Joseph J. Carr/Linear Integrated Circuits/Newness Press/1st Ed
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