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For the Inventor, By the Inventor

Cupertino, CA, United States of America

Maciek Orczyk

USPTO Granted Patents = 7

Average Co-Inventor Count = 3.1

ph-index = 6

Forward Citations = 2,188(Granted Patents)


Company Filing History:

goldMedal7 out of 13,726 
 
Applied Materials, Inc.
 patents

Years Active: 1997-2002

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7 patents (USPTO):Explore Patents
1. 6375744 - Sequential in-situ heating and deposition of halogen-doped silicon oxide (2002-04-23),
2. 6228781 - Sequential in-situ heating and deposition of halogen-doped silicon oxide (2001-05-08),
3. 6217658 - Sequencing of the recipe steps for the optimal low-dielectric constant HDP-CVD Processing (2001-04-17),
4. 6136685 - High deposition rate recipe for low dielectric constant films (2000-10-24),
5. 6070550 - Apparatus for the stabilization of halogen-doped films through the use (2000-06-06),
6. 5937323 - Sequencing of the recipe steps for the optimal low-k HDP-CVD processing (1999-08-10),
7. 5661093 - Method for the stabilization of halogen-doped films through the use of (1997-08-26),

Title: Maciek Orczyk: Innovator in Semiconductor Technology

Introduction

Maciek Orczyk is a prominent inventor based in Cupertino, CA, known for his contributions to semiconductor technology. With a total of 7 patents, he has made significant advancements in the field, particularly in the development of low dielectric constant insulating films.

Latest Patents

One of Maciek's latest patents is focused on the sequential in-situ heating and deposition of halogen-doped silicon oxide. This innovative process involves forming a low dielectric constant insulating film on a substrate by introducing a process gas that includes a silicon source, a fluorine source, and oxygen into a chamber. The process gas is then transformed into a plasma to deposit the first portion of the insulating film over the substrate. Following this, both the wafer and the first portion of the insulating film are heated to a temperature ranging from about 100-500°C for a specified duration. The film may consist of several separate portions, with each deposition followed by a heating step. This method results in a film that possesses a low dielectric constant and enhanced gas-fill stability due to the absence of free fluorine.

Career Highlights

Maciek Orczyk is currently employed at Applied Materials, Inc., where he continues to push the boundaries of semiconductor technology. His work has been instrumental in developing materials that improve the performance and reliability of electronic devices.

Collaborations

Throughout his career, Maciek has collaborated with notable colleagues, including Laxman Murugesh and Pravin K Narwankar. These partnerships have fostered an environment of innovation and creativity, leading to groundbreaking advancements in their field.

Conclusion

Maciek Orczyk's contributions to semiconductor technology through his patents and collaborations highlight his role as a key innovator in the industry. His work continues to influence the development of advanced materials that are essential for modern electronics.

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