The microelectronics industry drives our modern world, powering everything from innovative smartphones to advanced automotive systems and high-performance computing. But in an environment where the tiniest speck of dust can mean the difference between success and failure, manufacturers must take extraordinary measures to protect product integrity.

In this blog, we’ll explore why cleanroom gloves and protective clothing are indispensable in microelectronics manufacturing, the real-world consequences of inadequate protection, and highlight how Ansell’s 130+ years of expertise positions them to help safeguard the industry’s products.

The High-Stakes Nature of Microelectronics Manufacturing

Microelectronics manufacturing is a delicate process requiring precision and immaculate conditions to produce high-quality and defect-free products. In this realm, the smallest particle of dust, a single hair, or a mere fingerprint can lead to substantial losses by causing defects in the intricate circuits of microchips. This is why cleanroom environments are essential.

Cleanrooms are controlled environments with strict protocols to limit the presence of airborne particles, contaminants, and pollutants. Standards such as ISO 14644-1 classify cleanrooms based on the number of particles per cubic meter.

Why Cleanroom Gloves are Essential

1. Contamination Control

Gloves form a crucial barrier between the operator’s hands and the sensitive components they handle. Human skin constantly sheds particles and contains oils and salts that can severely damage microelectronic components. Cleanroom-compatible gloves are designed to contain the microbiological contaminants whilst also not generating particles themselves. They are washed (in deionized, filtered water) and dried within a cleanroom environment to optimize the cleanliness levels.

2. Electrostatic Discharge (ESD) Protection

Microelectronics are highly sensitive to electrostatic discharge, which can irreparably damage circuits. Cleanroom gloves often have ESD-safe properties and tested for surface resistivity (how strongly a material opposes the flow of electric current across a surface) and charge decay (how quickly a glove can dissipate static electricity to a grounded surface) ensuring that static electricity is dissipated safely and does not interfere with the manufacturing process.

3. Enhanced Dexterity and Tactile Sensitivity

Manufacturing microelectronics requires precise movements and delicate handling. Cleanroom gloves are thin, lightweight disposable gloves designed to provide the wearer with maximum dexterity and tactile sensitivity, ensuring that intricate tasks can be performed without compromising the integrity of the components. Many glove styles include Ansell’s technology ERGOFORM™ Ergonomic design technology which supports musculoskeletal health by reducing muscle effort to help prevent injuries and improve worker comfort and performance.

Browse our cleanroom gloves range.

The Power of Cleanroom Protective Clothing

1. Full-Body Coverage

Cleanroom suits or coveralls are designed to cover the entire body, including the head, legs, and arms. This full-body coverage is essential to contain any particles from skin, hair, or clothing from entering and contaminating the cleanroom environment.

2. Material and Design

Cleanroom suits are made from low-lint materials to prevent particle generation. They feature bound seams (trap and enclose loose fibers and threads) to prevent contamination from entering the environment through the seams. The materials used are also selected for their resistance to ESD, ensuring that the suit does not become a source of static discharge.

3. Comfort and Functionality

Operators in cleanrooms often need to wear PPE for extended periods. Therefore, these suits are designed to be comfortable while maintaining their protective qualities. Features such as breathable fabrics and ergonomic designs help ensure that workers can perform their tasks efficiently without discomfort.

Browse our cleanroom protective clothing range.

Real-World Consequences of Inadequate Protection

Failure to use cleanroom-compatible gloves and protective clothing can lead to significant consequences, and the industry has seen its share of costly contamination-related mishaps:

• TSCM Contaminated Chemical Incident: Contaminated supplies photoresist chemicals used in semiconductor manufacturing process caused defects in wafers¹
• IBM 45nm Chip Contamination Issue: Contamination led to defects in chips leading to a delay in production and impacting the overall reliability²
• Samsung Galaxy Note 7 Battery Explosions: Faulty batteries caused overheating and spontaneous combustion³