· PDF file · 2017-01-26n t i t y a d s o r b e d (c m 3 g-1 S T P) C o 3 S e 4 N...
Transcript of · PDF file · 2017-01-26n t i t y a d s o r b e d (c m 3 g-1 S T P) C o 3 S e 4 N...
![Page 1: · PDF file · 2017-01-26n t i t y a d s o r b e d (c m 3 g-1 S T P) C o 3 S e 4 N P s Fig. S6 N2 adsorption-desorption isotherm of Co3Se4 NPs. S8 Fig. S7 (a) and (b) SEM images of](https://reader033.fdocuments.net/reader033/viewer/2022042708/5ab6798f7f8b9a2f438da2ba/html5/thumbnails/1.jpg)
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Electronic Supplementary Information (ESI)
Template synthesis of CoSe2/Co3Se4 nanotubes: tuning the
crystal structures for photovoltaics and hydrogen evolution
in alkaline medium
Hongmei Li, Xing Qian,* Changli Zhu, Xiancai Jiang, Li Shao and Linxi Hou*
College of Chemical Engineering, Fuzhou University, Xueyuan Road No. 2, Fuzhou 350116, China. *E-mail: [email protected]; [email protected]: +86-0591-2286 6244; Tel: +86-0591-2286 5220.
Electronic Supplementary Material (ESI) for Journal of Materials Chemistry A.This journal is © The Royal Society of Chemistry 2017
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0 100 200 300 400 500 60085
90
95
100
3.9%
5.3%
D
C
B
A
Temperature (°C)
Wei
ght l
oss
(%) 3.2%
Fig. S1 Thermogravimetric curve of Co3Se4 NTs samples. This TGA has four distinct stage of weight losses. The first weight loss stage (A stage) ended at ~85 °C, stemming from evaporation of trace water. The second weight loss (B stage) at the temperature ranging from 85 to 340 °C was attributed to the Co3Se4 reacting with Se to form o-CoSe2. The third weight loss (C stage) at the temperature ranging from 340 to 410 °C may be associated with the evaporation of Se. Following this, the o-CoSe2 converted to c-CoSe2 companying with the evaporation of Se at the temperature ranging from 410 to 600 °C (D stage).
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10 20 30 40 50 60 70 80
Inte
nsity
(a.u
.)
2 (degree)
Co(CO3)0.35Cl0.20(OH)1.10 1.74H2O
Fig. S2 XRD patterns of the Co(CO3)0.35Cl0.20(OH)1.10·1.74H2O sample.
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Fig. S3 SEM images of the (a) o-CoSe2 and (b) Co3Se4 NPs.
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Fig. S4 TEM images of the (a) o-CoSe2 and (b) c-CoSe2.
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Fig. S5 (a) The survey spectrum of o-CoSe2, c-CoSe2 and Co3Se4 NTs. (b) Co 2p XPS spectra of c-CoSe2. (c) Se 3d XPS spectra of c-CoSe2.
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0.0 0.2 0.4 0.6 0.8 1.00
20
40
60
80
Relative pressure (P/P0)Qua
ntity
ads
orbe
d (c
m3 g-1
STP)
Co3Se4 NPs
Fig. S6 N2 adsorption-desorption isotherm of Co3Se4 NPs.
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Fig. S7 (a) and (b) SEM images of Co3Se4 after the DSSC and HER tests, respectively. (c) and (d) SEM images of o-CoSe2 after the DSSC and HER tests, respectively.
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20 30 40 50 60 70
Co3Se4 NTs
o-CoSe2
2 (degree)
Inte
nsity
(a.u
.)
Fig. S8 XRD patterns of the Co3Se4 NTs and o-CoSe2 after the HER stability test in 1.0
M KOH.
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Fig. S9 Cyclic voltammograms of (a) o-CoSe2, (b) c-CoSe2, (c) Co3Se4 NTs and (d) Co3Se4 NPs at different scan rates (10, 20, 40, 60, 80, 100 and 120 mV s−1) in 1.0 M KOH.
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-1.5 -1.0 -0.5 0.0 0.5 1.0 1.50.00
0.07
0.14
0.21
0.28 o-CoSe2 c-CoSe2 Co3Se4 NTs Co3Se4 NPs
Ove
rpot
entia
l (V)
log (J/mA cm-2)
Fig. S10 Calculation of exchange current density of o-CoSe2, c-CoSe2, Co3Se4 NTs and Co3Se4 NPs.
The exchange current density (J0) was calculated using extrapolation methods. When the overpotential value is 0, the log (J) values for o-CoSe2, c-CoSe2, Co3Se4 NTs and Co3Se4 NPs are −0.83, −0.89, −0.96 and −1.12, respectively. Based on Tafel equations, J0 values for o-CoSe2, c-CoSe2, Co3Se4 NTs and Co3Se4 NPs were calculated to be 0.15, 0.13, 0.11 and 0.08 mA cm−2, respectively.
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Table S1 Comparison of HER performance in alkaline medium for as-obtained samples with other non-noble metal-based catalysts.
Catalysts Onset potential (mV)
η10 (mV) Tafel slope
(mV decade−1)
References
Ni2P nanoparticles
100 225 100 1
Ni-Co-P-300 — 150 60.6 2CoP nanowire
arrays80 209 129 3
Co@N-C — 210 108 4Ni5P4 films — 150 53 5CoOx/CN 85 232 114 6
NiP2 nanosheet arrays
74 102 65 7
WN nanorod arrays
— 285 170 8
MoB 140 225 59 9Co-Ni-B — 133 121 10
CoS2 pyramids — 244 133 11CoSe2/CF — 95 52 12o-CoSe2 54 124 65.9 This work
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