Photolithography – III ( Part 1 ) - folk.ntnu.nofolk.ntnu.no/jonathrg/fag/TFE4180/slides/Ch15...

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1 TFE4180 Semiconductor Manufacturing Technology, Photolithography - III Photolithography – III ( Part 1 ) Chapter 15 : Semiconductor Manufacturing Technology by M. Quirk & J. Serda Saroj Kumar Patra, Department of Electronics and Telecommunication, Norwegian University of Science and Technology ( NTNU )

Transcript of Photolithography – III ( Part 1 ) - folk.ntnu.nofolk.ntnu.no/jonathrg/fag/TFE4180/slides/Ch15...

Page 1: Photolithography – III ( Part 1 ) - folk.ntnu.nofolk.ntnu.no/jonathrg/fag/TFE4180/slides/Ch15 Photolithography III... · Photolithography – III ( Part 1 ) Chapter 15 : Semiconductor

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TFE4180 Semiconductor Manufacturing Technology, Photolithography - III

Photolithography – III ( Part 1 )Chapter 15 : Semiconductor Manufacturing Technology by M. Quirk & J. Serda

Saroj Kumar Patra,Department of Electronics and Telecommunication,

Norwegian University of Science and Technology ( NTNU )

Page 2: Photolithography – III ( Part 1 ) - folk.ntnu.nofolk.ntnu.no/jonathrg/fag/TFE4180/slides/Ch15 Photolithography III... · Photolithography – III ( Part 1 ) Chapter 15 : Semiconductor

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Ten steps of Photolithography

10) Develop inspect7) Post-exposure bake (PEB)

8) Develop 9) Hard bake

UV Light

Mask

6) Alignmentand Exposure

Resist

4) Spin coat 5) Soft bake1-3) Vapor prime

HMDS

TFE4180 Semiconductor Manufacturing Technology, Photolithography - III

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Objectives

1. Explain why and how a post exposure bake is done for conventional and Chemically amplified DUV resist.

2. Describe the negative and positive resist development process for conventional and chemically amplified DUV resist.

3. List and discuss the two most common resist development methods and the critical development parameters.

4. Explain why a hard bake is done after resist development.

5. Explain the benefits of a post-develop inspection.

TFE4180 Semiconductor Manufacturing Technology, Photolithography - III

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Ten steps of Photolithography

10) Develop inspect7) Post-exposure bake (PEB)

8) Develop 9) Hard bake

UV Light

Mask

6) Alignmentand Exposure

Resist

4) Spin coat 5) Soft bake1-3) Vapor prime

HMDS

TFE4180 Semiconductor Manufacturing Technology, Photolithography - III

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Post-Exposure Bake (PEB)Process:• Typically 1 minute at 100-110 o C on hot plate, followed by cold

plate

Purpose:• Required for DUV-resist (PEB catalyzes the chemical reaction

that makes the exposed resist soluble)• Optional for UV-resist (PEB improves adhesion and reduces

standing waves)• Resist hardening ( Solvent reduction to 3 %)

TFE4180 Semiconductor Manufacturing Technology, Photolithography - III

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DUV Post-Exposure Bake (PEB)CA DUV resist

DUV exposurePAG forming acids

PEBAcid removes the resistance component

Exposed resist is dissolved in the developer

( water based, alkaline )

CA: Chemically AmplifiedPAG: Photo Acid Generator

TFE4180 Semiconductor Manufacturing Technology, Photolithography - III

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DUV Post-Exposure Bake (PEB)

• Important with uniform temperature on wafer during PEB

• Delay time from DUV exposure to PEB must be less than 30 minutes to avoid the acid to neutralize due to amine contamination from ambient air (see fig. 15.1)

TFE4180 Semiconductor Manufacturing Technology, Photolithography - III

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Amine Contamination of DUV Resist leading to “T-top” Formation

PAG

PAG

PAG

PAG

PAG

PAG

PAGPAG

H+

H+

H+

H+

H+

H+

H+

H+

H+

H+

Region of unexposed photoresist

Neutralized photoresist

Acid-catalyzed reaction of

exposed resist (post PEB)

Development

Resist T-topping

Figure 15.1 Quirk & Serda

TFE4180 Semiconductor Manufacturing Technology, Photolithography - III

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Post-Exposure Bake (PEB)Process:• Typically 1 minute at 100-110 o C on hot plate, followed by cold

plate

Purpose:• Required for DUV-resist (PEB catalyzes the chemical reaction

that makes the exposed resist soluble)• Optional for UV-resist (PEB improves adhesion and reduces

standing waves)• Resist hardening ( Solvent reduction to 3 %)

TFE4180 Semiconductor Manufacturing Technology, Photolithography - III

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Photolithography Exposure Equipment

(d) Result of PEB

PAC

PAC

PAC

PAC

PAC

PAC

PAC

PAC

PAC

PAC

PAC

PAC

PAC PAC

PAC

PAC

PAC

(c) PEB causes PAC diffusion

PAC

PAC

PAC

PAC

PAC

PAC

PAC

PAC

PAC

PAC

PAC

PAC

PAC PAC

PAC

PAC

PAC

Unexposed photoresist

Exposed photoresist

(b) Striations in resist

PACPAC

PAC

PAC PAC

PAC

PAC

PAC

PAC

PACPAC

PAC

PAC

PAC

PAC PAC

PACPAC

PACPAC

PAC

PACPAC

Standing waves

(a) Exposure to UV light

PAC = Photo Active Compound

(= DNQ in positive i-line resist)

Positive i-line DNQ-novolak resist

TFE4180 Semiconductor Manufacturing Technology, Photolithography - III

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Ten steps of Photolithography

10) Develop inspect7) Post-exposure bake (PEB)

8) Develop 9) Hard bake

UV Light

Mask

6) Alignmentand Exposure

Resist

4) Spin coat 5) Soft bake1-3) Vapor prime

HMDS

TFE4180 Semiconductor Manufacturing Technology, Photolithography - III

Page 12: Photolithography – III ( Part 1 ) - folk.ntnu.nofolk.ntnu.no/jonathrg/fag/TFE4180/slides/Ch15 Photolithography III... · Photolithography – III ( Part 1 ) Chapter 15 : Semiconductor

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DevelopPurpose:• Pattern printed by removal of unlit resist ( negetive resist ) or lit resist

( positive resist ).

Process Negetive Resist:• Developer is typically an organic solvent (e.g., Xylen).• Application by spray during spinning. Stop developing and rinsing

with alcohol ( spray ) during spinning. Spin dry.

Process Positive Resist:• Often alkaline based developer (e.g., TMAH or KOH).• Application by spray/puddle and subsequent DI water flushing

during spinning. (Alternative in small scale photolithography: Dip indeveloper bath and development stops by dipping in DI water bath).Spin dry.

TMAH = Tetramethyl-ammonium hydroxide

TFE4180 Semiconductor Manufacturing Technology, Photolithography - III

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Negative Resist Crosslinking

UV

CrosslinksUnexposed resist

Exposed resist

Figure 15.4 Quirk & Serda

TFE4180 Semiconductor Manufacturing Technology, Photolithography - III

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DevelopPurpose:• Pattern printed by removal of unlit resist ( negetive resist ) or lit resist

( positive resist ).

Process Negetive Resist:• Developer is typically an organic solvent (e.g., Xylen).• Application by spray during spinning. Stop developing and rinsing

with alcohol ( spray ) during spinning. Spin dry.

Process Positive Resist:• Often alkaline based developer (e.g., TMAH or KOH).• Application by spray/puddle and subsequent DI water flushing

during spinning. (Alternative in small scale photolithography: Dip indeveloper bath and development stops by dipping in DI water bath).Spin dry.

TMAH = Tetramethyl-ammonium hydroxide

TFE4180 Semiconductor Manufacturing Technology, Photolithography - III

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Development of Positive ResistResist exposed to light dissolves in the develop chemical.

Unexposedpositive resist

Crosslinked resist

Figure 15.5 Quirk & Serda

TFE4180 Semiconductor Manufacturing Technology, Photolithography - III

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Resist Development with Continuous Spray

Vacuum chuckSpindle connected to spin motor

To vacuum pump

Spray Develop-

RinseLoad Station Transfer StationVapor Prime

Resist Coat

Edge-bead Removal

Soft Bake

Cool Plate

Cool Plate

Hard Bake

Wafer Transfer System

(a) Wafer track system (b) Developer spray dispenser

Figure 15.6 Quirk & Serda

TFE4180 Semiconductor Manufacturing Technology, Photolithography - III

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Puddle Resist Development

(d) Spin dry(c) DI H2O rinse

(b) Spin-off excess developer(a) Puddle dispense

Developerdispenser

Puddle formation

Figure 15.7 Quirk & Serda

TFE4180 Semiconductor Manufacturing Technology, Photolithography - III

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Photoresist Development Problems

XX X Under

developIncomplete

developCorrectdevelop

Severe overdevelop

Resist Substrate

Figure 15.3 Quirk & Serda

TFE4180 Semiconductor Manufacturing Technology, Photolithography - III

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Resist Development Parameters• Developer Temperature (ΔT < 1°C)• Developer Time• Developer Volume• Normality (Active concentration in the liquid affects

the development speed)• Rinse (DI water or organic solvent/alcohol)• Exhaust Flow (in case of spray development)• Wafer Chuck (must be perfectly horizontal to ensure

coverage uniformity during puddle development)

TFE4180 Semiconductor Manufacturing Technology, Photolithography - III

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Ten steps of Photolithography

10) Develop inspect7) Post-exposure bake (PEB)

8) Develop 9) Hard bake

UV Light

Mask

6) Alignmentand Exposure

Resist

4) Spin coat 5) Soft bake1-3) Vapor prime

HMDS

TFE4180 Semiconductor Manufacturing Technology, Photolithography - III

Page 21: Photolithography – III ( Part 1 ) - folk.ntnu.nofolk.ntnu.no/jonathrg/fag/TFE4180/slides/Ch15 Photolithography III... · Photolithography – III ( Part 1 ) Chapter 15 : Semiconductor

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Hard Bake• Characteristics of Hard Bake:

– Typically 20 min @ 120-140°C on Hotplate, followed by Cold plate– Removes traces of Water and Developer– Evaporates Residual Solvent in Photoresist (to < 2 %)– Hardens the Resist– Improves Resist-to-Wafer Adhesion– Prepares Resist for Subsequent Processing– Higher Temperature than Soft Bake, but not to Point where Resist Softens

and Flows

• Resist Hardening with Deep UV (for DNQ-novolak resist)– Forms a thin Surface Crust which increases the resist Thermal Stability– Resist can now withstand thermal processes (e.g. ion implant or plasma

etching) up to 210°C without significant resist flow

TFE4180 Semiconductor Manufacturing Technology, Photolithography - III

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Softened Resist Flow at High Temperature

Photoresist

Figure 15.8 Quirk & Serda

TFE4180 Semiconductor Manufacturing Technology, Photolithography - III

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Ten steps of Photolithography

10) Develop inspect7) Post-exposure bake (PEB)

8) Develop 9) Hard bake

UV Light

Mask

6) Alignmentand Exposure

Resist

4) Spin coat 5) Soft bake1-3) Vapor prime

HMDS

TFE4180 Semiconductor Manufacturing Technology, Photolithography - III

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Develop Inspect

• Post-Develop inspection to find defects• Find defects before Etching or Implanting• Prevents scrap• Characterizes the photo process by providing feedback

regarding quality of the lithography process• Develop inspect rework flow

TFE4180 Semiconductor Manufacturing Technology, Photolithography - III

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Photolithography Exposure Equipment

Photograph courtesy of Advanced Micro Devices, Leica Auto Inspection station

Photo 15.1

TFE4180 Semiconductor Manufacturing Technology, Photolithography - III

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Develop Inspect Rework Flow

1-3. Vapor prime

HMDS

4. Spin coat

Resist

5. Soft bake 6. Align and expose

UV light

Mask

7. Post-exposure bake

8. Develop9. Hard bake10. Develop inspect

O2

PlasmaPlasmaStrip and clean

Rejected wafers

Passed wafersIon implant Etch

Rework

Figure 15.9 Quirk & Serda (modified)

TFE4180 Semiconductor Manufacturing Technology, Photolithography - III

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TFE4180 Semiconductor Manufacturing Technology, Photolithography - III