ThomasNet News Logo
Sign Up | Log In | ThomasNet Home | Promote Your Business

Dry Film Negative Photoresist produces hydrophobic surfaces.

Print | 
Email |  Comment   Share  
Dry Film Negative Photoresist produces hydrophobic surfaces.
Dry Film Negative Photoresist produces hydrophobic surfaces.
Click Here to Enlarge Picture
May 14, 2014 - Optimized for hot roll lamination and processing on micro-electromechanical systems (MEMS) and IC wafers, DF-4017 produces hydrophobic (>90░ contact angle) film surfaces. Cured chemistry withstands harsh environments, including those subject to moisture and corrosive chemicals, while glass transition temperature of 145░C andámoderate modulus of 4.5 GPa at 25░C lend to toughness. Product is compatible with and can be used in contact with EMS spin coating photoresist.

Engineered Material Systems Debuts DF-4017 Hydrophobic Dry Film Negative Photoresist


Engineered Material Systems
132 Johnson Dr.
Delaware, OH, 43015
USA



Press release date: May 1, 2014

DELAWARE, OHá— Engineered Material Systems, Inc. (EMS), a leading global supplier of negative photoresist materials for MEMs and IC cooling applications, introduces the DF-4017 Dry Film Negative Photoresist for use in micro-electromechanical systems (MEMS). This material formulation has been optimized for hot roll lamination and processing on MEMS and IC wafers.

DF-4017 film was developed to produce extremely hydrophobic (>90░ contact angle) film surfaces. The cured chemistry can withstand harsh environments including resistance to extreme moisture conditions and corrosive chemicals. The DF-4017film is tougher (less brittle) than most negative photoresists in the market with a glass transition temperature of 145░C (by DMA Tan Delta) and a moderate modulus of 4.5 GPa at 25░C. The cured chemistry is hydrophobic in nature, providing excellent chemical and moisture resistance.

DF-4017 film is compatible with and can be used in contact with the EMS line of spin coating photoresist. DF-4017 dry-film photoresist is the latest addition to EMS’ full line of film and liquid negative photo resists formulated for making microfluidic channels and permanent features on MEMS devices and integrated circuits.

For more information about the new DF-4017 Dry Film Negative Photoresist or to learn how Engineered Materials Systems can define, develop and create an engineered material solution that is right for your company, visit www.emsadhesives.com.

About Engineered Material Systems
Engineered Materials Systems, Inc. (EMS) technology focus is on electronic materials for semiconductor, circuit assembly, photovoltaic, printer head, camera module, disk drive, printed electronics and photonics assembly product lines. The company creates continual improvements that will guide its customers into the future. For more information, visit www.emsadhesives.com.
Print | 
Email |  Comment   Share  
Contacts: View detailed contact information.


 

Post a comment about this story

Name:
E-mail:
(your e-mail address will not be posted)
Comment title:
Comment:
To submit comment, enter the security code shown below and press 'Post Comment'.
 



 See related product stories
More .....
 See more product news in:
Materials and Material Processing
 More New Product News from this company:
UV Cure Adhesive suits microelectronic assembly applications.
Conductive Adhesive targets die-attach applications.
Epoxy Adhesive suits microelectronic assembly applications.
Conductive Adhesive suits die attach applications.
More ....
| Featured Manufacturing Jobs
 Other News from this company:
Formula E s.r.l. and Engineered Materials Systems, Inc. Enter Collaboration Agreement
Engineered Material Systems Introduces Highly Stretchable/Durable /Creasable Conductive Silver Ink for Wearable Electronics
More ....
 Tools for you
Watch Company 
View Company Profile
Company web site
More news from this company
E-mail this story to a friend
Save Story
Search for suppliers of
Photoresists




Home  |  My ThomasNet News®  |  Industry Market Trends®  |  Submit Release  |  Advertise  |  Contact News  |  About Us
Brought to you by Thomasnet.com        Browse ThomasNet Directory

Copyright © 2014 Thomas Publishing Company. All Rights Reserved.
Terms of Use - Privacy Policy



Error close

Please enter a valid email address