There are quite a few problems with your idea:
First of all, AFAIK there is no HTS material with a Tc of over 230K (at least not at ambient pressure, I don't remember what the record is at high pressures). Isn't Tc of Tl2Ba4Ca2Cu10Ox (I don't even remember if that is the correct formula) something like 120K?
Also, are you sure that it is even possible to make a wire out of it? My guess would be no(making HTS cables is quite tricky, it took years of research to design the first generation of practcal cables and even longer to come up with the generation that is now becoming available).
Secondly, you can't voltage bias something with zero dc resistance, there is no way to apply even 1V to a superconducting wire; if you try you will just force your source to try to deliver as much current as it can.
Thirdly, now even if we assume that you can actually find a source which could both deliver 1MV and a resonable amount current this still won't get you anywhere. All that will happen as you try to increse the voltage is that the current will rapidly increase (it won't be infinite since it will be limited by the resistive parts of the circuit); sooner or later you will reach the critical current of the superconductor; the voltage will now rapidly increse and something will melt...¨
The current when this happens will be significant: Jc varies quite a bit between different superconductors and obviously also depends on how close to Tc you are; but if we assume that you are at 0.7Tc or so Jc will probably be in the range 10^4-10^5 A/cm^2 or so
Btw, Jc tests are done using CURRENT sources and the compliance is set to prevent them from deliving too much power to the DUT.