| 1 - 8 |
Efficient planar CsPbBr3 perovskite solar cells by dual-source vacuum evaporation
Lei J, Gao F, Wang HX, Li J, Jiang JX, Wu X, Gao RR, Yang Z, Liu SZ |
| 9 - 14 |
Double perovskite Bi2FeMoxNi1-xO6 thin films: Novel ferroelectric photovoltaic materials with narrow bandgap and enhanced photovoltaic performance
Cui XX, Li Y, Sun NN, Du JH, Li XW, Yang HJ, Hao XH |
| 15 - 22 |
Analysis and optimisation of the glass/TCO/MZO stack for thin film CdTe solar cells
Bittau F, Potamialis C, Togay M, Abbas A, Isherwood PJM, Bowers JW, Walls JM |
| 23 - 29 |
Avoiding blistering in Al2O3 deposited on planar and black Si
Iandolo B, Davidsen RS, Hansen O |
| 30 - 38 |
Poly(3,4-alkylenedioxythiophenes): PXDOTs electrochromic polymers as gasochromic materials
Hu CW, Yamada Y, Yoshimura K |
| 39 - 54 |
Surface passivation of crystalline silicon solar cells: Present and future
Schmidt J, Peibst R, Brendel R |
| 55 - 60 |
Impact Impact of different capping layers on carrier injection efficiency between amorphous and crystalline silicon measured using photoluminescence
Paduthol A, Juhl MK, Nogay G, Loper P, Ingenito A, Trupke T |
| 61 - 68 |
Assessing power degradation and reliability of crystalline silicon solar modules with snail trails
Yang H, He WS, Wang H, Huang JS, Zhang JJ |
| 69 - 75 |
Investigation of the stability for self-powered CsPbBr3 perovskite photodetector with an all-inorganic structure
Xue MN, Zhou H, Ma GK, Yang L, Song ZH, Zhang J, Wang H |
| 76 - 81 |
monoPoly (TM) cells: Large-area crystalline silicon solar cells with fire-through screen printed contact to doped polysilicon surfaces
Duttagupta S, Nandakumar N, Padhamnath P, Buatis JK, Stangl R, Aberle AG |
| 82 - 90 |
Thermo-mechanical stability of lightweight glass-free photovoltaic modules based on a composite substrate
Martins AC, Chapuis V, Virtuani A, Li HY, Perret-Aebi LE, Ballif C |
| 91 - 96 |
Towards 22% efficient screen-printed bifacial n-type silicon solar cells
Rodriguez J, Wang EC, Chen N, Ho JW, Li MJ, Buatis JK, Nagarajan B, Xu LJ, Choy WL, Shanmugam V, Wong J, Aberle AG, Duttagupta S |
| 97 - 103 |
Rapid thermal annealing on ZnMgO window layer for improved performance of CdTe solar cells
Ren SQ, Wang HQ, Li YF, Li HY, He R, Wu LL, Li W, Zhang JQ, Wang WW, Feng LH |
| 104 - 112 |
Multi-characterization study of interface passivation quality of amorphous sub-stoichiometric silicon oxide and silicon oxynitride layers for photovoltaic applications
Steffens J, Fazio MA, Cavalcoli D, Terheiden B |
| 113 - 122 |
Carrier transport through the ultrathin silicon-oxide layer in tunnel oxide passivated contact (TOPCon) c-Si solar cells
Zhang Z, Zeng YH, Jiang CS, Huang YQ, Liao MD, Tong H, Al-Jassim M, Gao PQ, Shou CH, Zhou XL, Yan BJ, Ye JC |
| 123 - 139 |
Advances in solar thermal harvesting technology based on surface solar absorption collectors: A review
Hussain MI, Menezo C, Kim JT |
| 140 - 153 |
Silicon heterojunction solar cells: Recent technological development and practical aspects - from lab to industry
Haschke J, Dupre O, Boccard M, Ballif C |
| 154 - 159 |
Life cycle assessment on PERC solar modules
Lunardi MM, Alvarez-Gaitan JP, Chang NL, Corkish R |
| 160 - 169 |
Effect of different Na supply methods on thin Cu(In,Ga)Se-2 solar cells with Al2O3 rear passivation layers
Ledinek D, Donzel-Gargand O, Skold M, Keller J, Edoff M |
| 170 - 175 |
Improving the efficiency of Sb2Se3 thin-film solar cells by post annealing treatment in vacuum condition
Hu XB, Tao JH, Chen SM, Xue JJ, Weng GE, Kaijiang, Hu ZG, Jiang JC, Chen SQ, Zhu ZQ, Chu JH |
| 176 - 188 |
Correlation of the LeTID amplitude to the Aluminium bulk concentration and Oxygen precipitation in PERC solar cells
Wagner M, Wolny F, Hentsche M, Krause A, Sylla L, Kropfgans F, Ernst M, Zierer R, Bonisch P, Muller P, Schmidt N, Osinniy V, Hartmann HP, Mehnert R, Neuhaus H |
| 189 - 193 |
Graphene oxide films for field effect surface passivation of silicon for solar cells
Vaqueiro-Contrerasa M, Bartlam C, Bonilla RS, Markevich VP, Halsall MP, Vijayaraghavan A, Peaker AR |
| 194 - 198 |
Defect formation under high temperature dark-annealing compared to elevated temperature light soaking
Luka T, Turek M, Hagendorf C |
| 199 - 206 |
MnS passivation layer for highly efficient ZnO-based quantum dot-sensitized solar cells
Luo J, Wang YX, Sun J, Yang ZS, Zhang QF |
| 207 - 218 |
Activation of a highly oriented columnar structure of ZnFe2O4 for photoelectrochemical water splitting: Orchestrated effects of two-step quenching and Sn4+ diffusion
Park JW, Mahadik MA, An GW, Lee SY, Piao G, Choi SH, Chae WS, Chung HS, Park H, Jang JS |
| 219 - 226 |
Growth of Sb2Se3 thin films by selenization of RF sputtered binary precursors
Shongalova A, Correia MR, Teixeira JP, Leitao JP, Gonzalez JC, Ranjbar S, Garud S, Vermang B, Cunha JMV, Salome PMP, Fernandes PA |
| 227 - 232 |
Open circuit voltage increase of GaSb/GaAs quantum ring solar cells under high hydrostatic pressure
Montesdeoca D, Carrington PJ, Marko IP, Wagener MC, Sweeney SJ, Krier A |
| 233 - 240 |
Large process-dependent variations in band alignment and interface band gaps of Cu2ZnSnS4/CdS solar cells
Crovetto A, Cazzaniga A, Ettlinger RB, Schou J, Hansen O |
| 241 - 248 |
Effect of interconnect geometry on the evolution of stresses in a solar photovoltaic laminate during and after lamination
Song WJR, Tippabhotla SK, Tay AAO, Budiman AS |
| 249 - 254 |
Enhanced X-ray photon response in solution-synthesized CsPbBr3 nanoparticles wrapped by reduced graphene oxide
Liu XM, Xu T, Li YL, Zang ZG, Peng XS, Wei HY, Zha WY, Wang F |
| 255 - 262 |
Microencapsulation of eutectic and hyper-eutectic Al-Si alloy as phase change materials for high-temperature thermal energy storage
Nomura T, Yoolerd J, Sheng N, Sakai H, Hasegawa Y, Haga M, Saito G, Akiyama T |
| 263 - 272 |
Determining the charge states and capture mechanisms of defects in silicon through accurate recombination analyses: A review
Rougieux FE, Sun C, Macdonald D |
| 273 - 282 |
Enhanced electron transport enables over 12% efficiency by interface engineering of non-fullerene organic solar cells
Upama MB, Elumalai NK, Mahmud MA, Xu C, Wang D, Wright M, Uddin A |
