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Aligned and Graded Type-II Ruddlesden–Popper Perovskite Films for Efficient Solar Cells Journal article
Qing J., Liu X.-K., Li M., Liu F., Yuan Z., Tiukalova E., Yan Z., Duchamp M., Chen S., Wang Y., Bai S., Liu J.-M., Snaith H.J., Lee C.-S., Sum T.C., Gao F.. Aligned and Graded Type-II Ruddlesden–Popper Perovskite Films for Efficient Solar Cells[J]. Advanced Energy Materials, 2018, 8(21).
Authors:  Qing J.;  Liu X.-K.;  Li M.;  Liu F.;  Yuan Z.; et al.
Favorite | TC[WOS]:264 TC[Scopus]:265 | Submit date:2019/04/08
2d  Additives  Charge Separation  Layered Perovskite  Solar Cells  
Long Minority-Carrier Diffusion Length and Low Surface-Recombination Velocity in Inorganic Lead-Free CsSnI 3 Perovskite Crystal for Solar Cells Journal article
Wu B., Zhou Y., Xing G., Xu Q., Garces H.F., Solanki A., Goh T.W., Padture N.P., Sum T.C.. Long Minority-Carrier Diffusion Length and Low Surface-Recombination Velocity in Inorganic Lead-Free CsSnI 3 Perovskite Crystal for Solar Cells[J]. ADVANCED FUNCTIONAL MATERIALS, 2017, 27(7).
Authors:  Wu B.;  Zhou Y.;  Xing G.;  Xu Q.;  Garces H.F.; et al.
Favorite | TC[WOS]:190 TC[Scopus]:201  IF:18.5/19.6 | Submit date:2019/04/08
Carrier Dynamics  Diffusion Lengths  Lead-free Perovskite Crystals  Surface Recombination Velocity  
New insight into the roles of oxygen vacancies in hematite for solar water splitting Journal article
Zhao X., Feng J., Chen S., Huang Y., Sum T.C., Chen Z.. New insight into the roles of oxygen vacancies in hematite for solar water splitting[J]. Physical Chemistry Chemical Physics, 2017, 19(2), 1074-1082.
Authors:  Zhao X.;  Feng J.;  Chen S.;  Huang Y.;  Sum T.C.; et al.
Favorite | TC[WOS]:68 TC[Scopus]:71 | Submit date:2019/04/08
A large area (70 cm2) monolithic perovskite solar module with a high efficiency and stability Journal article
Priyadarshi A., Haur L.J., Murray P., Fu D., Kulkarni S., Xing G., Sum T.C., Mathews N., Mhaisalkar S.G.. A large area (70 cm2) monolithic perovskite solar module with a high efficiency and stability[J]. Energy and Environmental Science, 2016, 9(12), 3687.
Authors:  Priyadarshi A.;  Haur L.J.;  Murray P.;  Fu D.;  Kulkarni S.; et al.
Favorite | TC[WOS]:200 TC[Scopus]:215  IF:32.4/34.5 | Submit date:2018/10/30
High brightness formamidinium lead bromide perovskite nanocrystal light emitting devices Journal article
Perumal A., Shendre S., Li M., Tay Y.K.E., Sharma V.K., Chen S., Wei Z., Liu Q., Gao Y., Buenconsejo P.J.S., Tan S.T., Gan C.L., Xiong Q., Sum T.C., Demir H.V.. High brightness formamidinium lead bromide perovskite nanocrystal light emitting devices[J]. Scientific Reports, 2016, 6.
Authors:  Perumal A.;  Shendre S.;  Li M.;  Tay Y.K.E.;  Sharma V.K.; et al.
Favorite | TC[WOS]:142 TC[Scopus]:141 | Submit date:2019/04/08
Defect Engineered g-C3N4 for Efficient Visible Light Photocatalytic Hydrogen Production Journal article
Tay Q., Kanhere P., Ng C.F., Chen S., Chakraborty S., Huan A.C.H., Sum T.C., Ahuja R., Chen Z.. Defect Engineered g-C3N4 for Efficient Visible Light Photocatalytic Hydrogen Production[J]. CHEMISTRY OF MATERIALS, 2015, 27(14), 4930-4933.
Authors:  Tay Q.;  Kanhere P.;  Ng C.F.;  Chen S.;  Chakraborty S.; et al.
Favorite | TC[WOS]:402 TC[Scopus]:413  IF:7.2/8.4 | Submit date:2019/04/08
Auger-type hole trapping process at green emission centers of ZnO nanowires Conference paper
Sum T.C., Li M., Xing G., Wu T.. Auger-type hole trapping process at green emission centers of ZnO nanowires[C], 2013.
Authors:  Sum T.C.;  Li M.;  Xing G.;  Wu T.
Favorite | TC[WOS]:0 TC[Scopus]:0 | Submit date:2019/04/08