All posts tagged: halocarbon es

Photosensitive Polyimides – Critical for Advanced Semiconductor Packaging

By Jason Spruell Semiconductor Packaging is driving the More than Moore revolution and accelerating the development of ever-powerful electronics. In previous articles, we discussed how advanced polyimides are enabling this More than Moore revolution. Critical to these technologies are photosensitive polyimides.  Polyimides are used as redistribution layer (RDL) dielectrics in the most advanced semiconductor packaging

More Than Moore Through Advanced Semiconductor Packaging

More than Moore through Advanced Semiconductor Packaging

By Jason Spruell For over 55 years, the semiconductor industry has continued down the path of unrelenting miniaturization as described by Moore’s Law. A majority of this time has been devoted to advancing photolithographic processes to create ever-decreasing feature sizes on logic processors and memory chips. From i-line and 248 nm, to 193 and 193

Trends in the Lithium Ion Battery Industry

Trends in the Lithium Ion Battery Industry

With the growing demand for electric vehicles and smaller, faster electronic devices, the lithium ion (Li-ion) battery industry is constantly evolving. The need for safer, lighter, and longer-lasting batteries is more pertinent than ever before, and those involved in the manufacturing and formulation of Li-ion components continue to develop innovative solutions that satisfy industry requirements.

Semiconductor Fabrication- How Are They Manufactured

Semiconductor Fabrication: How Are They Manufactured?

Halocarbon engineers and scientists have been working with the leading suppliers in the semiconductor fabrication industry for over a decade. Through next-generation innovation in fluorochemistry, HES has facilitated tremendous progress in the miniaturization of sophisticated semiconductor devices. Understanding the basics of semiconductor fabrication has allowed HES to advance the industry through enhancements in several phases

F3-EMC for Improved Performance of Lithium Ion Batteries

F3-EMC for Improved Performance of Lithium Ion Batteries

Atlanta, GA., July, 2019 — Halocarbon Electronic Solutions introduces F3-EMC, or Trifluoroethyl methyl carbonate (Methyl-2,2,2-trifluoroethyl carbonate; 2,2,2-Trifluoroethyl methyl carbonate; FEMC; 3FEMC; or TFEMC, CAS #156783-95-8) for use in Lithium Ion (Li-Ion) batteries. This new product is a linear, partially fluorinated carbonate that serves as a co-solvent to improve the performance of Li-Ion batteries.  F3-EMC contains

Emerging Trends in the Semiconductor Industry

Emerging Trends in the Semiconductor Industry

As technological advancements continue to improve the design complexity and capability of semiconductor instruments, engineers must deliver specially formulated solutions that meet the evolving demands of the industry. With powerful breakthroughs in the hexafluoroisopropyl (HFIP) chemistry field, Halocarbon Electronic Solutions (HES) leads the market in developing new solutions to improve the performance of semiconductor devices.