Add to ORKGAbstract. Pre-electrolysis at the boiling point in open Pd|D2O cells is an effective method to activate a palladium cathode, which can produce excess power in subsequent electrolysis in closed systems for several months. The reproducibility is 23/45. Another characteristic of excess heat is the apparent resistance of electrolytic cell changes irreversibly with temperature. 1
Thermal behavior of polarized Pd/D electrode, prepared by the co-deposition technique, serving as a ...
Estimates are given of the raw data that are the basis for the claims of excess power production by ...
We describe room-temperature hydrogen and deuterium loading of palladium wires by means of pulsed el...
Anomalous excess heat in Pd|D2O+H2SO4 electrolytic cells was confirmed using an accurate method of h...
Electrolyte temperature is a key factor in excess heat production using Pd|D2O+H2SO4 electrolytic ce...
Anomalous heat absorption was observed in a closed Pd|D2O electrolysis system by Calvet calorimetry....
We present here one aspect of our recent research on the calorimetry of the Pd/D2O system which has ...
Using Ti-Pt electrodes in closed electrolytic cells containing D2O-H2SO4 electrolyte, evidence for e...
A Pd sheet cathode centered within a Pt-wired anode in D2O/LiOD electrolyte was used with the L-H mo...
Two experiments have been conducted to ascertain if a cell with a palladium cathode, a platinum anod...
A recent joint work [1] identified the crucial role of material science in improving control of the ...
At high temperatures, the Pd/C catalyst cathode (Case-type) electrolysis in heavy water might produc...
Four calorimetry experiments were performed with palladium cathode electrolysis cells to investigate...
Calorimetric exper iments were conducted to verify the caloric claims by F le ischmann and Pons. A t...
A titanium additive to a heavy water-sulfuric acid electrolyte has been found to increase the therma...
Thermal behavior of polarized Pd/D electrode, prepared by the co-deposition technique, serving as a ...
Estimates are given of the raw data that are the basis for the claims of excess power production by ...
We describe room-temperature hydrogen and deuterium loading of palladium wires by means of pulsed el...
Anomalous excess heat in Pd|D2O+H2SO4 electrolytic cells was confirmed using an accurate method of h...
Electrolyte temperature is a key factor in excess heat production using Pd|D2O+H2SO4 electrolytic ce...
Anomalous heat absorption was observed in a closed Pd|D2O electrolysis system by Calvet calorimetry....
We present here one aspect of our recent research on the calorimetry of the Pd/D2O system which has ...
Using Ti-Pt electrodes in closed electrolytic cells containing D2O-H2SO4 electrolyte, evidence for e...
A Pd sheet cathode centered within a Pt-wired anode in D2O/LiOD electrolyte was used with the L-H mo...
Two experiments have been conducted to ascertain if a cell with a palladium cathode, a platinum anod...
A recent joint work [1] identified the crucial role of material science in improving control of the ...
At high temperatures, the Pd/C catalyst cathode (Case-type) electrolysis in heavy water might produc...
Four calorimetry experiments were performed with palladium cathode electrolysis cells to investigate...
Calorimetric exper iments were conducted to verify the caloric claims by F le ischmann and Pons. A t...
A titanium additive to a heavy water-sulfuric acid electrolyte has been found to increase the therma...
Thermal behavior of polarized Pd/D electrode, prepared by the co-deposition technique, serving as a ...
Estimates are given of the raw data that are the basis for the claims of excess power production by ...
We describe room-temperature hydrogen and deuterium loading of palladium wires by means of pulsed el...