Thursday, March 30, 2017 9:06:15 AM
AUSTIN, TEXAS and TORONTO, ONTARIO--(Marketwired - Mar 27, 2017)
- Breakthrough results on CMBT permittivity at voltage
- Key energy density results achieved with 100 watt-hour/liter near-term target
- Independent verification of 1 Million cycle test results
Ian Clifford, Founder and CEO of the Company commented: "The heart of EEStor's technology is its patented CMBT dielectric. Independent test reports released today from MRA and Intertek show the unique performance of our dielectric at high voltages and high temperatures. These results indicate the achievement of an energy density milestone that legitimizes our ongoing work to challenge the best electrolytic and solid state electrical storage technology currently available." Clifford continued: "Our team, led by our Chief Science Officer, Richard Weir, has been working diligently on parallel programs to effectively "unlock" the unique dielectric characteristics of our CMBT. The break-through results announced today supports that we are well on our way to achieving our goal of developing the highest performing, lowest cost, sustainable, nontoxic and environmentally responsible energy storage technology available."
The MRA and Intertek testing reported today focus on measuring three samples of different thicknesses composed of EEStor's densified CMBT dielectric. The reports confirm these samples have dielectric constants (K) at 500 volts of 16,000, 8,670 and 8,570 with corresponding dissipation factors (DF) of 0.008%, 0.016% and 0.01% respectively. These are extremely high dielectric constants with very low DF at voltage.
Achieving a dielectric constant of 16000 at voltage is significant as larger dielectric constants and higher voltage means a capacitor can store more energy for a given size.
The fill factor of CMBT in the three tested samples is greater than that of the Company's epoxy dielectric samples tested previously. Even so, the leakage currently recorded by MRA and Intertek on these high K dielectrics indicate that resistance is extremely high, confirming the effectiveness of the new binders being used for these parts.
EEStor expects to achieve even greater levels of densification in the coming weeks. Together with ongoing development of its binders, EEStor is targeting test samples with near complete densification that will have operating voltages well in excess of 3000 volts (or 40 volts per micron). Operational voltages of these magnitudes have been achieved on 70 micron layers with EEStor's 80% fill factor CMBT epoxy system. If operational voltages of this magnitude can be maintained or exceeded in a 70 micron layer with today's dielectric constant of 16000, EEStor will have a disruptive solid state grid energy storage solution. Such a layer would outperform lead acid batteries of similar energy densities on lifetime, depth of discharge, and power in and out.
View full Press Release with charts at: https://finance.yahoo.com/news/eestor-announces-high-voltage-high-173311826.html
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