As the Lithium-ion (Li-ion) battery industry for the automotive market continues to expand at a rapid pace, the field of innovation becomes increasingly competitive. A market with this magnitude of growth potential and demand presents tremendous opportunities for technology companies of all sizes. Cutting-edge battery technologies have emerged and have been shown to address the
Lithium Ion Batteries (LIBs) have become ubiquitous in our daily lives. New battery designs and technologies continue to evolve to meet the ever-increasing needs for mobile energy storage, continuing to provide higher energy densities and improve safety. Likewise, for applications where weight and size are the most critical factors, Lithium Polymer Batteries (LiPo) have emerged as higher energy density alternatives to traditional LIBs. For this reason, LiPos are used in applications such as unmanned aerial vehicles (drones) and miniaturized consumer electronics devices, where the need for prolonged power in between charging must be balanced with a
For over 70 years, Halocarbon has provided innovative technical solutions to support strategic US military projects and technology. Halocarbon Electronics Solutions continues this tradition with breakthrough advancements in fluorochemistry for Lithium-ion (Li-ion) batteries by facilitating commercial-scale development for today’s most innovative military applications. Our fluorochemical solutions for Li-ion batteries enable high-performance, lightweight, safe, and reliable
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.
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
The automotive industry’s shift towards electric vehicles requires advanced Lithium-ion (Li-ion) batteries to improve powertrain efficiency and performance. Halocarbon Electronic Solutions (HES) is teaming up with the leading Li-ion battery producers to provide fluorochemical solutions for safer, lighter, longer-lasting batteries to enhance high-power operations in the electric vehicle. HES formulates fluorinated co-solvents and additives for
Fluorinated materials enable safer, lighter, longer-lasting Lithium-ion (Li-ion) batteries to meet the demand for optimized electric vehicles and faster electronics. Different classes of fluorochemicals provide unique benefits and can be used in specially formulated combinations to deliver the results desired in today’s advanced Li-ion batteries. Halocarbon Electronic Solutions (HES), as a global leader in large-scale
Halocarbon has been making great strides in Electronics Solutions to create fluorinated materials that can improve the performance of lithium ion batteries when they are pushed to the limit. Halocarbon is entering this market with a wide variety of fluorinated compounds to meet industry needs. One of Halocarbon’s research chemists, Neville Pavri, was interviewed by Design
The lithium ion battery has become the standard in many industries when it comes to mobilizing a power source. The developments in electronics, electric vehicles, and energy storage have created an overwhelming need for a lighter, stronger, and safer battery. Every year a new and improved version of this technology is introduced, and that drives the