Jian Lin scite author profile

Tetrahexahedral Pt nanocrystals (THH Pt NCs) bound by well-defined high index crystal planes offer exceptional electrocatalytic activity, owing to a high density of low-coordination surface Pt sites. We report, herein, on methanol electrooxidation at THH Pt NC electrodes studied by a combination of electrochemical techniques and in situ FTIR spectroscopy. Pure THH Pt NC surfaces readily facilitate the dissociative chemisorption of methanol leading to poisoning by strongly adsorbed CO. Decoration of the stepped surfaces by Ru adatoms increases the tolerance to poisoning and thereby reduces the onset potential for methanol oxidation by over 100 mV. The Ru modified THH Pt NCs exhibit greatly superior catalytic currents and CO2 yields in the low potential range, when compared with a commercial PtRu alloy nanoparticle catalyst. These results are of fundamental importance in terms of model nanoparticle electrocatalytic systems of stepped surfaces and also have practical significance in the development of surface tailored, direct methanol fuel cell catalysts.NSFC [21021002, 20933004, 21073152, 20873113]; Fundamental Research Funds for the Central Universities [2010121021]; Program for New Century Excellent Talents in University; Queen's University Belfast (The ISW DEL Clean Energies); EPSRC [EP/I013229/1

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Review and outlook on the international renewable energy development

Lin

et al. 2022

Energy and Built Environment

247

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Performance analysis and load matching of a photovoltaic–thermoelectric hybrid system

Lin

Liao

Lin

2015

Energy Conversion and Management

123

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The optimal design and operation strategy of renewable energy-CCHP coupled system applied in five building objects

et al. 2020

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Parametric design criteria of an updated thermoradiative cell operating at optimal states

Zhang

Peng

Lin

et al. 2017

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An updated mode of the thermoradiative cell (TRC) with sub-band gap and non-radiative losses is proposed, which can efficiently harvest moderate-temperature heat energy and convert a part of heat into electricity. It is found that when the TRC is operated between the heat source at 800 K and the environment at 300 K, its maximum power output density and efficiency can attain 1490 W m−2 and 27.2%, respectively. Moreover, the effects of some key parameters including the band gap and voltage output on the performance of the TRC are discussed. The optimally working regions of the power density, efficiency, band gap, and voltage output are determined. The maximum efficiency and power output density of the TRC operated at different temperatures are calculated and compared with those of thermophotovoltaic cells (TPVCs) and thermionic energy converters (TECs), and consequently, it is revealed that the maximum efficiency of the TRC operated at the moderate-temperature range is much higher than that of the TEC or the TPVC and the maximum power output density of the TRC is larger than that of the TEC but smaller than that of the TPVC. Particularly, the TRC is manufactured more easily than the near-field TPVC possessing a nanoscale vacuum gap. The results obtained will be helpful for engineers to choose the semiconductor materials, design and manufacture TRCs, and control operative conditions.

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Jian Lin

Tetrahexahedral Pt Nanocrystal Catalysts Decorated with Ru Adatoms and Their Enhanced Activity in Methanol Electrooxidation

Review and outlook on the international renewable energy development

Performance analysis and load matching of a photovoltaic–thermoelectric hybrid system

The optimal design and operation strategy of renewable energy-CCHP coupled system applied in five building objects

Parametric design criteria of an updated thermoradiative cell operating at optimal states

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