Issue 1, 2015

Artificial photosynthesis on tree trunk derived alkaline tantalates with hierarchical anatomy: towards CO2 photo-fixation into CO and CH4

Abstract

Artificial photosynthesis, the photochemical fixation and recycling of CO2 back to hydrocarbon fuels using sunlight and water, is both a significant challenge and an opportunity that, if realized, could have a revolutionary impact on our energy system. Herein, we demonstrate one of the first examples using biomass derived hierarchical porous photocatalysts for CO2 photo-fixation into sustainable hydrocarbon fuels. A generic method is proposed to build a series of alkaline tantalates MTaO3 (M = Li, Na, K) with hierarchical anatomy from macro- to nanoscales using activated carbonized tree trunks as templates. Artificial photosynthesis is carried out on MTaO3 series using only artificial sunlight, water, and carbon dioxide as inputs to produce carbon monoxide and methane as the main outputs. The CO2 photo-fixation performance can be enhanced by introducing a macropore network, which mainly enhances light transfer and accelerates gas diffusion. The research provides prototype models that integrate individual nanoscale components into higher level macroscopic artificial photosynthetic systems for better solar-to-fuel conversion efficiencies. This work would have potential significance for the ultimate construction of “artificial trees” and provide envisions creating “forests” of these CO2-capturing artificial trees to remove carbon dioxide from the atmosphere and convert it into sustainable fuels.

Graphical abstract: Artificial photosynthesis on tree trunk derived alkaline tantalates with hierarchical anatomy: towards CO2 photo-fixation into CO and CH4

Supplementary files

Article information

Article type
Paper
Submitted
02 Jun 2014
Accepted
12 Sep 2014
First published
16 Sep 2014

Nanoscale, 2015,7, 113-120

Author version available

Artificial photosynthesis on tree trunk derived alkaline tantalates with hierarchical anatomy: towards CO2 photo-fixation into CO and CH4

H. Zhou, P. Li, J. Guo, R. Yan, T. Fan, D. Zhang and J. Ye, Nanoscale, 2015, 7, 113 DOI: 10.1039/C4NR03019B

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