High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Market Size, Share, Growth Report 2026–2036

Comprehensive analysis of the High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Market Size, Share, Growth Report 2026–2036. Explore market size, share, growth trends, competitive landscape, and forecast insights for 2026-2036.

Pages: 210

Format: PDF

Date: 02-2026

Global High Purity Zinc Arsenide (ZnAs₂, CAS 12044-55-2) Market Report 2026–2036

Western Market Research estimates that the High Purity Zinc Arsenide (ZnAs₂) Market was valued at USD XXXX million in 2025 and is projected to reach USD XXXX million by 2036, expanding at a CAGR of XX% during the forecast period.


Market Overview

High purity zinc arsenide (ZnAs₂) is a III–V compound semiconductor material primarily utilized in advanced electronic, optoelectronic, and research applications. Due to its unique electronic band structure and semiconducting behavior, it is used in infrared detectors, photonic devices, and compound semiconductor research.

Demand is driven by:

  • Expansion of compound semiconductor manufacturing

  • Growth in photonics and optoelectronics

  • Increasing R&D in advanced materials science

  • Development of high-performance sensing devices

  • Semiconductor miniaturization and specialty wafer fabrication

The study integrates primary interviews with specialty chemical suppliers, semiconductor material distributors, research institutions, and OEM engineers, supported by analysis of semiconductor fabrication trends and specialty materials trade flows.


Impact of COVID-19

The pandemic influenced the market through:

  • Temporary laboratory and research facility shutdowns

  • Disruptions in semiconductor raw material supply chains

  • Delays in electronics manufacturing

However, strong recovery in semiconductor production and increased investment in advanced materials research restored demand momentum post-2021.

Market Segmentation Analysis

By Form

  • Powder
    Used in laboratory research, thin-film deposition, and precursor synthesis.

  • Granules
    Suitable for crystal growth and semiconductor processing.

  • Sputtering Targets
    High-purity forms for thin-film deposition processes.

  • Evaporation Materials
    Used in vacuum deposition systems.

Powder form holds significant demand due to research and prototyping applications.


By Purity Level

  • 99.9% (3N)

  • 99.99% (4N)

  • 99.999% (5N) and Above

Higher purity grades dominate due to semiconductor-grade requirements.


By Application

  • Semiconductor Devices
    Compound semiconductor fabrication and specialty wafers.

  • Photo-Optic Applications
    Infrared sensors, photodetectors, and optical devices.

  • Research & Development
    Academic and industrial materials science research.

  • Thin-Film & Coating Technologies
    Advanced deposition systems.

Semiconductor and optoelectronics represent the primary commercial segments.


By End-User

  • Semiconductor Manufacturers

  • Research Institutions

  • Defense & Aerospace Electronics

  • Photonics Manufacturers


Regional Analysis

North America

  • Strong semiconductor R&D ecosystem

  • Presence of advanced materials suppliers

  • Government funding for microelectronics innovation

Europe

  • Growth in photonics research

  • Increasing semiconductor independence initiatives

  • Academic and industrial research collaboration

Asia-Pacific

  • Largest semiconductor manufacturing base

  • Rapid expansion of wafer fabrication facilities

  • Growing investment in compound semiconductor materials

Asia-Pacific is expected to dominate demand due to high concentration of semiconductor fabs.

South America

  • Limited but growing research-based demand

Middle East & Africa

  • Emerging semiconductor research initiatives


Key Market Participants

Major companies operating in the High Purity Zinc Arsenide Market include:

  • ALB Materials Inc.

  • LTS Research Laboratories

  • Alfa Chemistry

  • ESPI Metals

  • American Elements

  • ABSCO Limited

  • Kono Chem Co., Ltd.

  • Materion Corporation

  • Stanford Advanced Materials

  • Goodfellow Corporation

  • Sigma-Aldrich (Merck KGaA)

  • Indium Corporation

  • Kurt J. Lesker Company

  • Advanced Engineering Materials Limited

  • Tokyo Chemical Industry (TCI)


Porter’s Five Forces Analysis

Threat of New Entrants – Low
High purity production requires advanced refining and contamination control technologies.

Bargaining Power of Suppliers – Moderate to High
Dependence on high-purity zinc and arsenic sources affects pricing.

Bargaining Power of Buyers – Moderate
Specialized semiconductor manufacturers demand consistent ultra-high purity standards.

Threat of Substitutes – Moderate
Alternative compound semiconductors (e.g., GaAs, InP) may substitute depending on application.

Competitive Rivalry – Moderate
Limited number of specialty chemical suppliers competing on purity and quality consistency.


SWOT Analysis

Strengths

  • High-value niche semiconductor material

  • Essential for specialized optoelectronic devices

  • Strong R&D-driven demand

Weaknesses

  • Toxicity concerns related to arsenic handling

  • Limited large-scale commercial applications

  • High production costs

Opportunities

  • Growth in compound semiconductor technologies

  • Expansion of photonic sensing devices

  • Government semiconductor localization programs

Threats

  • Strict environmental and safety regulations

  • Competition from alternative semiconductor materials

  • Raw material supply constraints


Trend Analysis

  • Increasing demand for ultra-high purity (5N+) grades

  • Growth in infrared and photodetector technologies

  • Expansion of thin-film deposition processes

  • Rising semiconductor localization initiatives

  • Advanced materials research funding growth


Market Drivers

  • Semiconductor innovation

  • Expansion of optoelectronics industry

  • Research in advanced electronic materials

  • Development of defense-grade sensing technologies


Market Challenges

  • Environmental compliance and toxicity management

  • High cost of purification processes

  • Limited large-volume demand

  • Supply chain risks for arsenic materials


Value Chain Analysis

Raw Material Sourcing (Zinc & Arsenic Refining)

High-Purity Compound Synthesis

Purification & Quality Testing (3N–5N+)

Packaging & Controlled Distribution

Semiconductor & Research Integration

End-Use Device Manufacturing

Precision purification and contamination control are critical value-added stages.


Clean Data Summary

  • Base Year: 2025

  • Forecast Period: 2026–2036

  • Estimated CAGR: XX%

  • Dominant Segment: Semiconductor Applications

  • Fastest Growing Segment: Photo-Optic Devices

  • Largest Region: Asia-Pacific

  • Key Growth Driver: Compound Semiconductor Expansion


Strategic Recommendations for Stakeholders

  1. Invest in ultra-high purity (5N+) refining capabilities.

  2. Strengthen environmental compliance and safe handling protocols.

  3. Develop partnerships with semiconductor fabs and research labs.

  4. Expand presence in Asia-Pacific semiconductor clusters.

  5. Diversify sourcing of high-purity raw materials.

  6. Focus on high-margin photonics and defense applications.

1. Market Overview of High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2)

1.1 High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Market Overview

1.1.1 High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Product Scope

1.1.2 Market Status and Outlook

1.2 High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Market Size by Regions:

1.3 High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Historic Market Size by Regions

1.4 High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Forecasted Market Size by Regions

1.5 Covid-19 Impact on Key Regions, Keyword Market Size YoY Growth

1.5.1 North America

1.5.2 East Asia

1.5.3 Europe

1.5.4 South Asia

1.5.5 Southeast Asia

1.5.6 Middle East

1.5.7 Africa

1.5.8 Oceania

1.5.9 South America

1.5.10 Rest of the World

1.6 Coronavirus Disease 2019 (Covid-19) Impact Will Have a Severe Impact on Global Growth

1.6.1 Covid-19 Impact: Global GDP Growth, 2019, 2020 and 2021 Projections

1.6.2 Covid-19 Impact: Commodity Prices Indices

1.6.3 Covid-19 Impact: Global Major Government Policy

2. Covid-19 Impact High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Sales Market by Type

2.1 Global High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Historic Market Size by Type

2.2 Global High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Forecasted Market Size by Type

2.3 Powder

2.4 Granules

3. Covid-19 Impact High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Sales Market by Application

3.1 Global High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Historic Market Size by Application

3.2 Global High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Forecasted Market Size by Application

3.3 Semiconductor

3.4 Photo Optic Application

3.5 Research

4. Covid-19 Impact Market Competition by Manufacturers

4.1 Global High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Production Capacity Market Share by Manufacturers

4.2 Global High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Revenue Market Share by Manufacturers

4.3 Global High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Average Price by Manufacturers

5. Company Profiles and Key Figures in High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Business

5.1 ALB Materials

5.1.1 ALB Materials Company Profile

5.1.2 ALB Materials High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Product Specification

5.1.3 ALB Materials High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Production Capacity, Revenue, Price and Gross Margin

5.2 LTS Research Laboratories

5.2.1 LTS Research Laboratories Company Profile

5.2.2 LTS Research Laboratories High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Product Specification

5.2.3 LTS Research Laboratories High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Production Capacity, Revenue, Price and Gross Margin

5.3 Alfa Chemistry

5.3.1 Alfa Chemistry Company Profile

5.3.2 Alfa Chemistry High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Product Specification

5.3.3 Alfa Chemistry High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Production Capacity, Revenue, Price and Gross Margin

5.4 ESPI Metals

5.4.1 ESPI Metals Company Profile

5.4.2 ESPI Metals High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Product Specification

5.4.3 ESPI Metals High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Production Capacity, Revenue, Price and Gross Margin

5.5 American Elements

5.5.1 American Elements Company Profile

5.5.2 American Elements High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Product Specification

5.5.3 American Elements High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Production Capacity, Revenue, Price and Gross Margin

5.6 ABSCO

5.6.1 ABSCO Company Profile

5.6.2 ABSCO High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Product Specification

5.6.3 ABSCO High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Production Capacity, Revenue, Price and Gross Margin

5.7 Kono Chem Co. Ltd

5.7.1 Kono Chem Co. Ltd Company Profile

5.7.2 Kono Chem Co. Ltd High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Product Specification

5.7.3 Kono Chem Co. Ltd High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Production Capacity, Revenue, Price and Gross Margin

6. North America

6.1 North America High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Market Size

6.2 North America High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Key Players in North America

6.3 North America High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Market Size by Type

6.4 North America High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Market Size by Application

7. East Asia

7.1 East Asia High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Market Size

7.2 East Asia High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Key Players in North America

7.3 East Asia High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Market Size by Type

7.4 East Asia High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Market Size by Application

8. Europe

8.1 Europe High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Market Size

8.2 Europe High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Key Players in North America

8.3 Europe High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Market Size by Type

8.4 Europe High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Market Size by Application

9. South Asia

9.1 South Asia High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Market Size

9.2 South Asia High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Key Players in North America

9.3 South Asia High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Market Size by Type

9.4 South Asia High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Market Size by Application

10. Southeast Asia

10.1 Southeast Asia High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Market Size

10.2 Southeast Asia High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Key Players in North America

10.3 Southeast Asia High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Market Size by Type

10.4 Southeast Asia High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Market Size by Application

11. Middle East

11.1 Middle East High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Market Size

11.2 Middle East High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Key Players in North America

11.3 Middle East High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Market Size by Type

11.4 Middle East High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Market Size by Application

12. Africa

12.1 Africa High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Market Size

12.2 Africa High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Key Players in North America

12.3 Africa High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Market Size by Type

12.4 Africa High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Market Size by Application

13. Oceania

13.1 Oceania High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Market Size

13.2 Oceania High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Key Players in North America

13.3 Oceania High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Market Size by Type

13.4 Oceania High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Market Size by Application

14. South America

14.1 South America High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Market Size

14.2 South America High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Key Players in North America

14.3 South America High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Market Size by Type

14.4 South America High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Market Size by Application

15. Rest of the World

15.1 Rest of the World High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Market Size

15.2 Rest of the World High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Key Players in North America

15.3 Rest of the World High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Market Size by Type

15.4 Rest of the World High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Market Size by Application

16 High Purity Zinc Arsenide (ZnAs2, CAS 12044-55-2) Market Dynamics

16.1 Covid-19 Impact Market Top Trends

16.2 Covid-19 Impact Market Drivers

16.3 Covid-19 Impact Market Challenges

16.4 Porter’s Five Forces Analysis

18 Regulatory Information

17 Analyst's Viewpoints/Conclusions

18 Appendix

18.1 Research Methodology

18.1.1 Methodology/Research Approach

18.1.2 Data Source

18.2 Disclaimer

Market Segmentation Analysis

By Form

  • Powder
    Used in laboratory research, thin-film deposition, and precursor synthesis.

  • Granules
    Suitable for crystal growth and semiconductor processing.

  • Sputtering Targets
    High-purity forms for thin-film deposition processes.

  • Evaporation Materials
    Used in vacuum deposition systems.

Powder form holds significant demand due to research and prototyping applications.


By Purity Level

  • 99.9% (3N)

  • 99.99% (4N)

  • 99.999% (5N) and Above

Higher purity grades dominate due to semiconductor-grade requirements.


By Application

  • Semiconductor Devices
    Compound semiconductor fabrication and specialty wafers.

  • Photo-Optic Applications
    Infrared sensors, photodetectors, and optical devices.

  • Research & Development
    Academic and industrial materials science research.

  • Thin-Film & Coating Technologies
    Advanced deposition systems.

Semiconductor and optoelectronics represent the primary commercial segments.


By End-User

  • Semiconductor Manufacturers

  • Research Institutions

  • Defense & Aerospace Electronics

  • Photonics Manufacturers

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