How Specialized Equipment Improves Silicon Wet Etching Processes

Results from common wet etching processes such as KOH and Piranha etch can be improved with the use of specialized equipment. Depending on the process, key parameters can be controlled especially well and innovative procedures can reduce particle counts. When specialized equipment is used in silicon wet etching processes, wafer output can increase, defects can be reduced and output quality can improve. Equipment such as temperature controls, recirculating baths, and special control strategies can optimize specific processes and positively impact overall facility performance.

KOH Etching is Reliable and Easy to Control

Etching with potassium hydroxide (KOH) is a favorite process for applications requiring tight control of the etch rate. The KOH etch speed depends on the concentration of the bath and the temperature. A base etch rate can be attained by using an appropriate concentration and the rate can then be varied by controlling the temperature.

Modutek Teflon tanks are specially suited for KOH etching because they minimize contamination and feature tight temperature control. The TI static tanks and the TFa recirculating tanks are temperature-controlled models while the TT series of tanks operate at ambient temperature. The TI and TFa models operate over a temperature range of 30 to 180 degrees centigrade and temperature control is within plus/minus 0.5 degrees centigrade. Modutek Teflon tanks with KOH etching feature excellent output quality with low defects and high reproducibility.

Piranha Etch Works Quickly

Piranha etch uses a mixture of sulfuric acid and hydrogen peroxide to quickly remove organic residue such as photoresist from silicon wafer surfaces. The mixture has to be handled carefully because it is highly exothermic when first prepared. Normal operation is often at around 130 degrees centigrade so the process requires tanks that can withstand high temperatures and can be heated.

Modutek quartz baths are ideal tanks for Piranha etching. The QFa series high temperature circulating baths can withstand the initial temperature spike from mixture preparation and the subsequent heating to operating temperature. The quartz tanks heat at a rate of two degrees centigrade per minute and temperature accuracy is plus/minus one-degree centigrade. Modutek quartz baths with Piranha etch represent an inexpensive, safe and reliable etching process.

Buffered Oxide Etch (BOE) Etches Silicon Dioxide

Buffered oxide etch uses buffered hydrofluoric acid to etch thin films of silicon dioxide or silicon nitride. The Modutek F-series sub-ambient circulating baths reduce consumption of acid and filter out contaminating particles. Temperatures of 10 to 60 degrees centigrade are maintained within plus/minus 1-degree centigrade and the sub-micron particle filter reduces the particle count and improves yields. Modutek has designed the F-series baths especially for BOE applications and delivers a safe and reliable process with low-cost operation.

Silicon Nitride Etching Requires Special Control Measures

A phosphoric acid and de-ionized water mixture etches silicon nitride in a process that requires special stabilizing controls. The mixture usually operates at its boiling point of about 160 degrees centigrade. As the etching proceeds, de-ionized water evaporates, leaving an increasing concentration of acid behind. The higher concentration increases the boiling point and the etch rate. To keep the process working consistently, the concentration has to be restored to the lower level.

Adding enough water to restore the concentration risks an explosive reaction when the water mixes with the acid. Modutek has designed a control system that frequently adds small quantities of water to the silicon nitride wet etching baths whenever the temperature rises. The small amount of water is mixed in immediately and the concentration remains steady. Modutek’s specialized control system ensures improved stability and safe operation.

Modutek’s extensive experience in wet process fabrication allows the company to design and build specialized equipment to meet the needs of its silicon wet etching process customers. Such special equipment can improve output quality, reduce costs, and increase yields.

Improving Standard Clean Particle Removal in a Wet Bench Process

When silicon wafer yields are not improved with the Standard Clean process, improved particle removal can be achieved with advanced processing equipment. Standard Clean or RCA clean was developed by the RCA company in 1965 and it has changed little since then. It has always been successful in cleaning wafers and removing most particles. However, with silicon circuits and structures decreasing in size and product density on wafers increasing, even the tiniest particles can cause device defects.

RCA clean works by first dissolving and removing organic materials from the surface of the wafers using powerful chemicals. In a second step, metallic impurities are removed and the wafer is rinsed clean. The two-step process and the rinsing remove most particles but the smallest particles often remain attached to the wafer with surface tension and electrostatic charges. Such particles can affect diffusion in wafers or block the etching of electronic structures or circuit paths.

The submicron particles are hard to remove completely with chemicals or by rinsing. The use of megasonic cleaning technology to generate very high-frequency sound waves in the wafer bath provides the capability to dislodge all remaining particles, allowing them to be rinsed away. Megasonic cleaning improves Standard Clean particle removal process and helps ensure defect-free production of microscopic structures on the silicon wafer.

How Megasonic Cleaning Works to Improve Standard Clean Particle Removal

The two steps making up the RCA wafer cleaning process are SC1, using a mixture of ammonium hydroxide and hydrogen peroxide, and SC2, using a mixture of hydrochloric acid and hydrogen peroxide. The SC1 process removes most of the contamination from the silicon wafer surface, but introduces metallic ion contaminants that can influence subsequent wafer processing steps. The SC2 process dissolves the remaining contaminants, allowing impurities to be rinsed away as they float to the surface of the cleaning mixture.

Standard Clean takes place in heated inert tanks such as quartz baths that are carefully designed to limit additional contamination. The chemical mixtures are heated to about 80 degrees centigrade and processing takes about 10 minutes for each step. After rinsing, the silicon wafers are clean but may still have an unacceptable number of submicron particles adhering to the wafer surfaces.

Megasonic cleaning can remove the majority of these particles while also dislodging the few larger particles that may still be present. The process involves adding a megasonic transducer to the tank holding the wafers. The transducer converts very high-frequency signals from a megasonic generator into sound waves that travel through the rinsing water to strike the wafer surfaces. Sound wave frequencies are typically at or above 1 MHz but may range as low as 200 kHz depending on the specific cleaning application.

As the sound waves travel through water, they create microscopic cavitation bubbles that form and burst in tune with the sound wave frequency. When the bubbles burst, they produce tiny but intense jets of water. The jets from the bubbles near the wafer surfaces dislodge any remaining particles, leaving them to be rinsed away at the surface of the bath, for example via an overflow weir. The additional Megasonic Cleaning step is very effective in particle removal because the tiny jets break any bonds that make the particles adhere to the wafer. The result is extremely low particle counts on wafers that undergo both the RCA wafer cleaning process and Megasonic Cleaning.

Modutek Designs and Builds Specialized Equipment to Improve Wet Bench Processes

Megasonic Cleaning is one example of Modutek’s implementation of designs and technologies that improve wet process performance for their customers. For over forty years Modutek has been providing specialized semiconductor manufacturing equipment to meet unique industry needs. As a leading semiconductor equipment manufacturer, the company offers free consulting and can provide recommendations on equipment from its complete product lines. When Modutek supplies wet bench equipment to customers, the company follows a well-defined process to ensure their equipment performance meets customer requirements.