Rong Lan scite author profile

The N≡N bond (225 kcal mol−1) in dinitrogen is one of the strongest bonds in chemistry therefore artificial synthesis of ammonia under mild conditions is a significant challenge. Based on current knowledge, only bacteria and some plants can synthesise ammonia from air and water at ambient temperature and pressure. Here, for the first time, we report artificial ammonia synthesis bypassing N2 separation and H2 production stages. A maximum ammonia production rate of 1.14 × 10−5 mol m−2 s−1 has been achieved when a voltage of 1.6 V was applied. Potentially this can provide an alternative route for the mass production of the basic chemical ammonia under mild conditions. Considering climate change and the depletion of fossil fuels used for synthesis of ammonia by conventional methods, this is a renewable and sustainable chemical synthesis process for future.

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Solid-state electrochemical synthesis of ammonia: a review

Amar¹,

Lan²,

Petit³

et al. 2011

J Solid State Electrochem

293

254

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A direct urea fuel cell – power from fertiliser and waste

Lan

Tao²,

Irvine

2010

Energy Environ. Sci.

371

238

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Recent Progress in the Development of Anode Materials for Solid Oxide Fuel Cells

Cowin¹,

Petit²,

Lan³

et al. 2011

Advanced Energy Materials

356

218

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The fi eld of research into solid oxide fuel cell (SOFC) anode materials has been rapidly moving forward. In the four years since the last in-depth review signifi cant advancements have been made in the reduction of the operating temperature and improvement of the performance of SOFCs. This progress report examines the developments in the fi eld and looks to draw conclusions and inspiration from this research. A brief introduction is given to the fi eld, followed by an overview of the principal previous materials. A detailed analysis of the developments of the last 4 years is given using a selection of the available literature, concentrating on metal-fl uorite cermets and perovskitebased materials. This is followed by a consideration of alternate fuels for use in SOFCs and their associated problems and a short discussion on the effect of synthesis method on anode performance. The concluding remarks compile the signifi cant developments in the fi eld along with a consideration of the promise of future research. The recent progress in the development of anode materials for SOFCs based on oxygen ion conducting electrolytes is reviewed.

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Rong Lan

Ammonia and related chemicals as potential indirect hydrogen storage materials

Synthesis of ammonia directly from air and water at ambient temperature and pressure

Solid-state electrochemical synthesis of ammonia: a review

A direct urea fuel cell – power from fertiliser and waste

Recent Progress in the Development of Anode Materials for Solid Oxide Fuel Cells

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