inorganic chemistry frontiers impact factor 2020

J. Phys. Mater. (1990). To realize the practical application of hydrogen energy, numerous effects still need to be carried out in the coming future. Enhanced hydrogen desorption/absorption properties of magnesium hydride with CeF3@Gn. (2016). Mahmoudi et al. doi: 10.1016/j.ijhydene.2010.01.109, Wan, C., Zhou, L., Sun, L., Xu, L. X., Cheng, D. G., Chen, F. Q., et al. For D2, SN's ammonium group mitigates the “A” cation vacancies, and the thione group passivates coordinatively unsaturated Pb2+ on the crystal surface. (2018) found that MgH2 could desorb H2 even at 180°C with the addition of 50 wt% NiMn9.3Al4.0Co14.1Fe3.6 alloy. Destabilization of NaBH4 by transition metal fluorides. (2017) investigated the catalytic effect of FeCoNi@GS on hydrogen sorption of MgH2. 1000 h operational lifetime perovskite solar cells by ambient melting encapsulation. The Journal Impact 2019-2020 of Inorganic Chemistry Frontiers is 5.870, which is just updated in 2020. J.Alloy. J. Int. Enhanced hydrogen storage properties of MgH2 by the synergetic catalysis of Zr0.4Ti0.6Co nanosheets and carbon nanotubes. doi: 10.1016/j.ijhydene.2016.09.210, Song, J., Wang, J., Hu, X., Meng, D., and Wang, S. (2019). Change in percentage is 14.42%. Chem. It should be noticed that AATs in these references are not standardized for commercial uses and alter from one another. Nanoflakes MgNiO2 synthesised via a simple hydrothermal method and its catalytic roles on the hydrogen sorption performance of MgH2. doi: 10.1021/acs.chemrev.8b00539, Jeon, N. J., Na, H., Jung, E. H., Yang, T. Y., Lee, Y. G., Kim, G., et al. U.S.A. 27, 112–120. Since the 2D layer substantially stayed close to the ETM, the AVAI additive contributed mainly to allow growing the stable, oriented 3D phase. Using hygroscopic-ion-free HTM dopants is a better choice in this regard. The WBH layer improves the self-assembling ability of P3HT while filming a P3HT solution onto the WBH layer. Effect of the La/Mg ratio on the structure and electrochemical properties of LaxMg3-xNi9 (x=1.6–2.2) hydrogen storage electrode alloys for nickel–metal hydride batteries. Electrochemical performances of MgH2 and MgH2-C films for lithium ion battery anode. Inorganic Chemistry Impact Factor, IF, number of article, detailed information and journal factor. Studies on de/rehydrogenation characteristics of nanocrystalline MgH2 co-catalyzed with Ti, Fe and Ni. Development of ZrFeV alloys for hybrid hydrogen storage system. Sci. doi: 10.1016/S0925-8388(99)00592-7, Liao, B., Lei, Y. Q., Chen, L. X., Lu, G. L., Pan, H. G., and Wang, Q. D. (2004). Dalton Trans. Figure 1. This mini-review, within which crucial perovskite-stabilizing methods were systematically analyzed, can be used as a quick-start guide when dealing with PSCs' stability in the future. doi: 10.1021/jp211254k, Zhai, B., Xiao, X., Lin, W., Huang, X., Fan, X., Li, S., et al. Stabilizing heterostructures of soft perovskite semiconductors. (2017). The perovskites used in D7 and D8 are Rb0.09Cs0.05[(FA0.85MA0.15)Pb(I0.85Br0.15)3] and (Cs0.17FA0.83)Pb(I0.82Br0.15Cl0.03)3, respectively. Science 365, 473–478. The effect of a Ti-V-based BCC alloy as a catalyst on the hydrogen storage properties of MgH2. Synergetic effect of reactive ball milling and cold pressing on enhancing the hydrogen storage behavior of nanocomposite MgH2/10 wt% TiMn2 binary system. Further investigations proved that FeNi nanoparticles were well distributed on the MgH2 surface in the nanoscale range (Figure 5). Mater. 3, 1557–1561. Recent advances and remaining challenges of nanostructured materials for hydrogen storage applications. In addition, the deeper highest occupied molecular orbital (HOMO) level of PDCBT (−5.3 eV) than that of spiro-OMeTAD (−5.0 eV) inhibits reaction between the HTM and I0 from the perovskite when photo-biased. doi: 10.1038/s41467-018-06709-w, Cappel, U. Int. (2015). Adv. Inorganic Chemistry Impact Factor IF 2020|2019|2018 - BioxBio 396:125229. doi: 10.1016/j.cej.2020.125229, Wang, H., Lin, H. J., Cai, W. T., Ouyang, L. Z., and Zhu, M. (2016). J. Hydrogen Energy 45, 4754–4764. J. Solar cell efficiency tables (version 55). For example, D11 retained 92% of initial PCE after 1,500-h open-circuit light-soaking, but the PCE dropped to 91% of initial value only after 500-h MPP tracking. The D0 device was made by infiltrating a perovskite precursor solution including 3 vol% AVAI through carbon cathode into a ZrO2 spacer layer on a nanoporous TiO2 ETM. Furthermore, Cs+ has strong interaction with the BX64- framework, which greatly improves the photostability (Chen et al., 2019). |, National Renewable Energy Laboratory, 2020, https://www.frontiersin.org/articles/10.3389/fchem.2020.00592/full#supplementary-material, https://www.nrel.gov/pv/cell-efficiency.html, Creative Commons Attribution License (CC BY), Science & Technology Policy Research and Information Center, National Applied Research Laboratories, Taipei, Taiwan. J. Hydrogen Energy 39, 17047–17053. Appl. |, Creative Commons Attribution License (CC BY), College of Energy and Power, Jiangsu University of Science and Technology, Zhenjiang, China. J. Hydrogen Energy 41, 12108–12126. ACS Appl. Among the methods investigated, the transition metals have demonstrated excellent catalytic effect on improving the hydrogen storage properties of MgH2. Nanostructured Ti-catalyzed MgH2 for hydrogen storage. So far, the PSCs discussed in this section are n–i–p PSCs. doi: 10.1016/j.ijhydene.2016.05.169, Khodaparast, V., and Rajabi, M. (2015). 482, 388–392. (2004). A perovskite's surface has a higher defect density than that of its bulk, which makes the surface more sensitive to the stresses. doi: 10.1016/j.jallcom.2014.12.071, Wang, Z., Zhang, X., Ren, Z., Liu, Y., Hu, J., Li, H., et al. Nanotechnology 29:265705. doi: 10.1088/1361-6528/aabcf3, Chen, G., Zhang, Y., Cheng, H., Zhu, Y., Li, L., and Lin, H. (2019). The European Journal of Inorganic Chemistry publishes Full Papers, Communications, and Minireviews from the entire spectrum of inorganic, organometallic, bioinorganic, and solid-state chemistry. (2007). J. Hydrogen Energy 41, 13131–13151. Nat. (2020). (2016). doi: 10.1126/science.aao5561, Jena, A. K., Kulkarni, A., and Miyasaka, T. (2019). (2018). doi: 10.1016/j.jpowsour.2011.01.001, Meena, P., Singh, R., Sharma, V. K., and Jain, I. P. (2018). J. Hydrogen Energy 43, 7440–7446. (2016). J. Hydrogen Energy 44, 15072–15086. Despite coupling with doped PTAA, whose Tg is lower than that of doped spiro-OMeTAD, the encapsulated D3 device retained 90% of initial PCE after 1,000-h 60°C ATT. Enhanced hydrogen storage properties of MgH2 co-catalyzed with NbF5 and single-walled carbon nanotubes. This mini-review briefed recent efforts on stabilizing PSCs to have PCEs beyond 20% and lifetimes that prove they are qualified or nearly qualified by 90%@1,000 h tests. doi: 10.1039/C8EE01500G, Song, Z., Abate, A., Watthage, S. C., Liyanage, G. K., Phillips, A.

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