My name is NEX®

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Q1. What is NEX Technology™?
NEX (Non-Equilibrium eXchange) is GoVolta’s breakthrough energy approach. It uses a small priming input (<1 W) to drive a system out of equilibrium. This opens additional energy exchange channels, allowing ambient energy flows to couple into the circuit and deliver sustained, usable power.

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Q2. Does this mean GoVolta creates “free energy”?
No. Conservation of energy always applies. The apparent gain comes from accessing non-equilibrium exchange pathways. As shown in recent physics research (Cassak et al., WVU, 2023–24), when systems are disturbed from stability, new channels of energy transfer appear. GoVolta’s NEXBRIDGE™ device harnesses these channels in electrical form.

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Q3. How much energy does a NEXBRIDGE™ device produce?

• Input: ~0.5 W (the priming energy you put in).

• Exchange: ambient/non-equilibrium energy channel (not directly measured but inferred).

• Output: ~5 W to the load + ~1 W stored in the battery.

• Losses: ~2 W (heat and inefficiency).
  This matches the conservation formula:
  E_input + E_exchange = E_output + E_losses.

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Q4. How is this different from energy harvesting?
Conventional harvesters capture microwatts to milliwatts (μW–mW) from sunlight, RF, or vibration. GoVolta’s NEX technology delivers watts — three orders of magnitude more — and operates independently of weather, light, or RF availability.

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Q5. What science supports this?
GoVolta builds on non-equilibrium thermodynamics research:

• Cassak et al. (2023–24): extension of the First Law to out-of-equilibrium systems.

• Freitas et al. (2021): stochastic thermodynamics of nonlinear circuits.

• Seifert (2012): rigorous energy flows in driven systems.
  Together, they show that energy transfer in non-equilibrium systems can be consistent, measurable, and controlled.

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Q6. How is GoVolta validating results?

• Black-box testing: measure only inputs and outputs.

• Calibrated instruments: verified by independent meters.

• Battery/thermal controls: eliminate rebound or noise.

• Next step: third-party replication by accredited university labs.

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Q7. What are the applications?

• Energy-autonomous IoT & sensors

• Trickle-charging EVs

• Data centers & microgrids

• Off-grid resilience systems
  Unlike conventional harvesters, GoVolta offers sustained watt-level output for real-world devices.

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Q8. Is GoVolta going to market with products?
No. GoVolta is not a revenue-generating company. The strategy is to build exit-ready prototypes (100 W in 2025, 1 kW in 2026) in premium integrated enclosures — showcased in Switzerland — creating maximum value for a strategic acquisition.

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Q9. Is GoVolta for sale?
No. GoVolta is not on the market. We often receive inquiries, but our focus is on building technology, not selling early or cheap. We’re packaging NEX technology into fully integrated systems that reflect its true worth. If an acquisition happens, it will be on our terms — when the technology is ready and the world understands its significance.

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Q10. Have Elon Musk or Jeff Bezos invested in GoVolta?
No — they don’t know about us yet.
GoVolta is still working quietly while we complete our first 1 kW systems. When the world grasps what Non-Equilibrium eXchange (NEX) means for energy independence, the conversation will change. We’re not chasing hype; we’re building the foundation of tomorrow’s freedom.

Q11. How do you value GoVolta today?
You can’t — not yet.
The true value lies in what’s coming, not what’s already priced. GoVolta represents a new class of energy control and conversion — technology so early that the market hasn’t caught up. Our worth isn’t measured in kilowatts, but in what it makes possible.

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Q12. How does GoVolta scale its power output?
GoVolta’s system is modular:

• Single NEX card (8×12×5 cm): ~5–7 W output.

• Rack board (6 cards): ~30–40 W combined.

• Cabinet system: multiple boards reaching 100 W (2025) and 1 kW (2026).
  A second cabinet holds supercapacitors and batteries for balanced operation. This modular architecture scales power like a server rack — add more cards, gain more power.

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Q13. Can GoVolta publicly demonstrate its technology?
Yes — as a black-box demonstration.
We can show live input/output data and performance dashboards, but internal circuitry and control logic remain confidential until patent protection is secured. The science is real, but the method is proprietary.