2016
DOI: 10.1002/aenm.201600738
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Toward a Low‐Cost Artificial Leaf: Driving Carbon‐Based and Bifunctional Catalyst Electrodes with Solution‐Processed Perovskite Photovoltaics

Abstract: countries, where many users still are not connected to the electric grid, it is clear that alternative energy technologies are needed that can contribute with renewable fuels in signifi cant amounts. In this challenging context, researchers have found inspiration in the process of natural photosynthesis when they attempt to convert the plentiful, but intermittent, solar irradiation incident on the Earth's surface into a storable fuel, using a range of methods commonly coined as artifi cial photosynthesis. [1][… Show more

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Cited by 32 publications
(29 citation statements)
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“…All cellse xhibit ac urrent peak at V % 1.2 Vc orresponding to the potential difference between the V 3 + /V 4 + and Ti 4 + /Ti 3 + redox couples in NVTP/C.T he peak intensities decrease upon increasing the concentration of the NaClO 4 salt;h owever,t he lowest peak separation is observed with the 8 m NaClO 4 electrolyte, which indicates that, despite the lower conductivity,i ncreased ion aggregation facilitates charge transfer at the electrode surface. [34,45] The first charge capacity of all cells is close to the theoreticalv alue (i.e.,6 2mAh g À1 ). Notably,t he influence of the current collector (carbon paper or stainless steel) was also studied because of the few studies available (see Figure S4).…”
Section: Resultssupporting
confidence: 70%
See 1 more Smart Citation
“…All cellse xhibit ac urrent peak at V % 1.2 Vc orresponding to the potential difference between the V 3 + /V 4 + and Ti 4 + /Ti 3 + redox couples in NVTP/C.T he peak intensities decrease upon increasing the concentration of the NaClO 4 salt;h owever,t he lowest peak separation is observed with the 8 m NaClO 4 electrolyte, which indicates that, despite the lower conductivity,i ncreased ion aggregation facilitates charge transfer at the electrode surface. [34,45] The first charge capacity of all cells is close to the theoreticalv alue (i.e.,6 2mAh g À1 ). Notably,t he influence of the current collector (carbon paper or stainless steel) was also studied because of the few studies available (see Figure S4).…”
Section: Resultssupporting
confidence: 70%
“…[44] Given that hydrogen evolution and poor performance were observed with carbon paper,a ll experiments were performed by using stainless-steel current collectors. [34,45] The first charge capacity of all cells is close to the theoreticalv alue (i.e.,6 2mAh g À1 ). However,d uring the first discharge am uch lower capacity is detected, which results in al ow initial coulombic efficiency,i na ccordancew ith other studies on aqueous Li-a nd Na-ion batter-ies.…”
Section: Resultssupporting
confidence: 70%
“…[41][42][43] Recently,t he direct carbonization of porphyrin or corrolec omplexeso ft he respective metals at high temperatures hasg ained much attraction as ap romising method to directly prepare electrode materials. [44][45][46] However, only as mall number of studies concerning anodes prepared from manganese oxidesa nd carbon materials have been reported.…”
Section: Introductionmentioning
confidence: 99%
“…OER catalysis using earth-abundant transition metals (especially Ni, [35,36] Fe, [37,38] Co, [39,40] and Mn) oxides is currently being intensely studied and carbon support materials have also been used in this context. [41][42][43] Recently,t he direct carbonization of porphyrin or corrolec omplexeso ft he respective metals at high temperatures hasg ained much attraction as ap romising method to directly prepare electrode materials. [44][45][46] However, only as mall number of studies concerning anodes prepared from manganese oxidesa nd carbon materials have been reported.…”
Section: Introductionmentioning
confidence: 99%
“…[158] Carbon papers are also employed as the template to grow different kinds of materials and construct 3D CNF architectures. For example, vertical α-FeOOH nanowires [159] and TiO 2 [160] are successfully grown on the surface of carbon paper in a low-temperature hydrothermal procedure; porous and polycrystalline NiCo 2 O 4 nanorods entangled with and attached to a nitrogen-doped carbon nanotubes (N-CNTs) network are anchored onto carbon paper in a CVD process; [161] MoS 2 nanosheets are also grown on carbon fiber paper via CVD technology [162] and hydrothermal method; [163] 3D CNTs and borondoped carbon nanorods are directly grown on carbon papers by spray pyrolysis and CVD method; [164] CoSe 2 nanoparticles are grown on the surface of carbon paper by preparing Co 3 O 4 nano particles on carbon microfiber paper followed by selenization under Se vapor. [165] In addition, macroporous carbon fiber felt, consisting of an interwoven matrix of thermally conductive carbon fibers with a diameter of approximately 10-20 mm, is used as the template to fabricate 3D CNFs nanostructures.…”
Section: Wwwadvancedsciencenewscommentioning
confidence: 99%