Carbon dioxide capture and mitigation form a key part of the technological response to
combat climate change and reduce CO2 emissions. Solid materials capable of reversibly …

In light of the increasing concern for sustainable growth and development, there is a rising
demand for energy-efficient conversion processes. Chemical Loo** (CL) technology has …

Over the last decade, exsolution has emerged as a powerful new method for decorating
oxide supports with uniformly dispersed nanoparticles for energy and catalytic applications …

Chemical loo** steam methane reforming (CL-SMR) can produce high-purity hydrogen
without additional separation units. However, the low reactivity of LaFeO 3 oxygen carrier …

Faced with increasingly serious energy and global warming, it is critical to put forward an
alternative non-carbonaceous fuel. In this regard, hydrogen appears as the ultimate clean …

Via redox chemistry, chemical looing water splitting driven by the reduction of coke oven gas
(COG) over an oxygen carrier was proposed to co-produce pure H 2 and H 2-rich syngas …

Solar thermal-driven thermochemical H 2 O and CO 2 splitting offers a carbon-neutral path
to produce feedstocks for synthetic fuel production such as hydrogen or synthesis gas. This …

The gradually increasing atmospheric concentration of greenhouse gases has caused
global climate change and subsequent environmental problems. To negate the emission of …

Chemical loo** reforming coupled with CO 2 splitting is a promising CO 2 utilization
method that produces a valuable fuel. Here, we present a novel perovskite oxide with the …

The chemical loo** dry reforming of methane reaction (CL-DRM) has attracted attention
for its ability to reduce carbon emissions by converting two greenhouse gases (methane and …