Add to ORKGThe use of renewable energy by means of electrochemical techniques by converting H\(_2\)O, CO\(_2\) and N\(_2\) into chemical energy sources and raw materials, is the basis for securing a future sustainable "green" energy supply. Some weaknesses and inconsistencies in the practice of determining the electrocatalytic performance, which prevents a rational bottom-up catalyst design, are discussed. Large discrepancies in material properties as well as in electrocatalytic activity and stability become obvious when materials are tested under the conditions of their intended use as opposed to the usual laboratory conditions. They advocate for uniform activity/stability correlations under application-relevant conditions, and the need for a clear r...
With the current global greenhouse gas emissions, our remaining carbon budget is depleted in only 7 ...
The sustainable development of civil and industrial activities passes through a correct energy manag...
This chapter deals with the concept of “hydrogen economy”, which was introduced by John O.M’ Bockris...
The use of renewable energy by means of electrochemical techniques by converting H2O, CO(2)and N(2)i...
Electrochemistry will play a vital role in creating sustainable energy solutions in the future, part...
Developing clean and renewable energy resources has become one of the world's most important challen...
This work considers mainly the problem of environmental pollution due to the production of energy by...
As we are in the midst of a climate crisis, there is an urgent need to transition to the sustainable...
Electrochemical energy conversion processes driven by renewables, such as wind, hydro, and solar ene...
The energy transition from fossil fuels to renewables will be a long and difficult process but it is...
The detrimental impacts of climate change coupled with increasing global energy demand has resulted ...
International audienceReplacing fossil fuels with energy sources and carriers that are sustainable, ...
(Photo)electrocatalysis holds the promise to enable the broad implementation of renewable energies. ...
To create fully sustainable energy systems requires multiple stages of engagement across different f...
Electrocatalytic transformation of carbon dioxide (CO2) and water into chemical feedstocks offers th...
With the current global greenhouse gas emissions, our remaining carbon budget is depleted in only 7 ...
The sustainable development of civil and industrial activities passes through a correct energy manag...
This chapter deals with the concept of “hydrogen economy”, which was introduced by John O.M’ Bockris...
The use of renewable energy by means of electrochemical techniques by converting H2O, CO(2)and N(2)i...
Electrochemistry will play a vital role in creating sustainable energy solutions in the future, part...
Developing clean and renewable energy resources has become one of the world's most important challen...
This work considers mainly the problem of environmental pollution due to the production of energy by...
As we are in the midst of a climate crisis, there is an urgent need to transition to the sustainable...
Electrochemical energy conversion processes driven by renewables, such as wind, hydro, and solar ene...
The energy transition from fossil fuels to renewables will be a long and difficult process but it is...
The detrimental impacts of climate change coupled with increasing global energy demand has resulted ...
International audienceReplacing fossil fuels with energy sources and carriers that are sustainable, ...
(Photo)electrocatalysis holds the promise to enable the broad implementation of renewable energies. ...
To create fully sustainable energy systems requires multiple stages of engagement across different f...
Electrocatalytic transformation of carbon dioxide (CO2) and water into chemical feedstocks offers th...
With the current global greenhouse gas emissions, our remaining carbon budget is depleted in only 7 ...
The sustainable development of civil and industrial activities passes through a correct energy manag...
This chapter deals with the concept of “hydrogen economy”, which was introduced by John O.M’ Bockris...