Monitoring and Remediation of Contaminants in Bulk Chemicals

Eugene Shalyt, Jack Shamie60 Gordon Drive, Totowa, NJ 07512eshalyt@ecitechnology.com (201) 819-5302

SPCC 2019

Industry Requirements for Advanced Node

Challenges of the Future

J. Srinivasaraghavan

“Business of Cleans”

2018 Linx Conference

Requirements and challenges for

semiconductor cleaning chemicals

J. Hemphill

2016 Critical Materials Conference

Generalized Diagram of

Semiconductor Processing

Test point

Description Concern

Raw materials as

manufactured by chemical

supplier

Does CoA applies to EVERY

container?

Degradation in transit?

Does CoA cover ALL

parameters?

Raw material as it passed

through facility

distribution system for

bulk chemical

Degradation/Contamination of

chemical in transit e.g. O2, CO2

exposure, particle and metal

characterization

Process blend of

individual chemicals

Was blend prepared properly?

Compensation for degradation

of components

WaferOutside of scope of this

presentation

Process equipment

parameters

Outside of scope of this

presentation

Reclaim

Exact degradation of

components for proper

replenishment

Waste Compliance

Case Study: Bulk Chemical X

• End-user reported problems loosely related to lots of raw materials

Problem Statement

• End-user lab compared good and bad lots but could not find difference

Investigation

NIR Spectroscopy

Raman Spectroscopy

ICP

Potentiometric Titration

Conductometric Titration

E-Chem Impedance

Cyclic Voltammetric

Stripping

UV-Vis Spectroscopy

Surface Tension

Specific Gravity

OCP (Open Circuit Potentiometry)

Dissolved Oxygen

Ion Chromatography

HPLC

ECI In-house Tests

ECI screened Good and Bad Samples by variety of

analytical methods

ECI Test Results

• Most analytical methods including ICP-MS with pptsensitivity did not show difference between “Good” and “Bad”

• Surprisingly, cyclic voltammetry electrochemical method with sensitivity in ppm showed large difference indicating presence of Red/Ox active contaminant

Results ECI Electrochemical Method

Cyclic Voltammetry Method

Identifying Contaminant

Compound MatchStability in

Bulk Chemical

AxByCz

Clean bulk Chemical

Stable

AxByCz-1Contaminatedbulk chemical

Stable

AxBy+1Cz-1 Unstable

AxBy+1Cz+4

Clean bulk chemical

Stable

ECI Electrochemical Method

Analytical Method

Cyclic Voltammetry analytical method was optimized to provide

repeatable and accurate measurement of contaminant in

ppm concentration range

Remediation of Contaminated Chemical

AxByCz-1 + 1/n Cn ⇒ 𝐴𝑥𝐵𝑦𝐶𝑧

Contaminant Good productContaminant lacks one “C” atom

as compared to good product

Can contaminated chemical be

remediated by treatment with C ?

Brief sparging with C gas

removed contaminant

signature from both

“bad lot” and simulated

contaminant standard

SEMI grade vs ACS grade

Even “good” SEMI grade sample shows higher contaminant level than ACS grade (Reagent Grade of American

Chemical Society)

We suspect that removal process of metals to low PPT level or other semi-grade purification introduces contaminant

Contaminant is NOT regulated in SEMI or ACS standards

Conclusions

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Electrochemical

Cyclic

Voltammetry

method was

developed for

monitoring of

contaminant in

bulk chemical

Contaminant was identified

Gas sparging

was effective in

remediation of

contaminated

chemical

TMAH is widely used bulk chemical. Short exposure to air degrades chemicals

CO2 + OH- ⇒ 𝐻𝐶𝑂3-

Carbonate Calibration Carbonate Accumulation

DIW

Case Study 2: TMAH Degradation by

Contact with Air

UV-Vis method provides effective monitoring of carbonate accumulation and reveals carbonate uptake rate at different conditions