| 2703 - 2725 |
Innovation in concentrated solar power
Barlev D, Vidu R, Stroeve P |
| 2726 - 2733 |
Experiment on heat storage characteristic of microencapsulated phase change material slurry
Zhang YL, Wang SF, Rao ZH, Xie JF |
| 2734 - 2744 |
A method for using CPV modules as temperature sensors and its application to rating procedures
Peharz G, Rodriguez JPF, Siefer G, Bett AW |
| 2745 - 2751 |
Properties of ultrafast laser textured silicon for photovoltaics
Iyengar VV, Nayak BK, More KL, Meyer HM, Biegalski MD, Li JV, Gupta MC |
| 2752 - 2762 |
High-chain fatty acid esters of myristyl alcohol with even carbon number: Novel organic phase change materials for thermal energy storage-1
Aydin AA, Okutan H |
| 2763 - 2767 |
Influence of doped PEDOT:PSS on the performance of polymer solar cells
Hu ZY, Zhang JJ, Hao ZH, Zhao Y |
| 2768 - 2771 |
Infrared lock-in thermography through glass substrates
Straube H, Breitenstein O |
| 2772 - 2777 |
Preparation of capric acid/halloysite nanotube composite as form-stable phase change material for thermal energy storage
Mei DD, Zhang B, Liu RC, Zhang YT, Liu JD |
| 2778 - 2785 |
A robust convection cover material for selective radiative cooling applications
Bathgate SN, Bosi SG |
| 2786 - 2794 |
Ex-situ and in-situ analyses on reaction mechanism of CuInSe2 (CIS) formed by selenization of sputter deposited CuIn precursor with Se vapor
Moon DG, Ahn S, Yun JH, Cho A, Gwak J, Ahn S, Shin K, Yoon K, Lee HD, Pak H, Kwon S |
| 2795 - 2804 |
Low bandgap carbazole copolymers containing an electron-withdrawing side chain for solar cell applications
Lee JF, Hsu SLC, Lee PI, Chuang HY, Yang ML, Chen JS, Chou WY |
| 2805 - 2810 |
Influence of deep level defects on the performance of crystalline silicon solar cells: Experimental and simulation study
Ali A, Gouveas T, Hasan MA, Zaidi SH, Asghar M |
| 2811 - 2815 |
Incorporation and critical concentration of oxygen in a-Si:H solar cells
Woerdenweber J, Merdzhanova T, Gordijn A, Stiebig H, Beyer W |
| 2816 - 2822 |
Over 30% transparency large area inverted organic solar array by spray
Lewis JE, Lafalce E, Toglia P, Jiang XM |
| 2823 - 2830 |
Excimer laser annealing and chemical texturing of ZnO:Al sputtered at room temperature for photovoltaic applications
Johnson EV, Prod'homme P, Boniface C, Huet K, Emeraud T, Cabarrocas PRI |
| 2831 - 2836 |
Organic photovoltaic devices with a crosslinkable polymer interlayer
Kang NS, Ju BK, Lee TW, Choi DH, Hong JM, Yu JW |
| 2837 - 2841 |
Analytical model for the photocurrent of solar cells based on graded band-gap CdZnTe thin films
Morales-Acevedo A |
| 2842 - 2847 |
A study of the electrochemical performance of vanadium oxide thin films grown by atmospheric pressure chemical vapour deposition
Vernardou D, Paterakis P, Drosos H, Spanakis E, Povey IM, Pemble ME, Koudoumas E, Katsarakis N |
| 2848 - 2854 |
Absorption coefficient of bulk and thin film Cu2O
Malerba C, Biccari F, Ricardo CLA, D'Incau M, Scardi P, Mittiga A |
| 2855 - 2860 |
Influence of H2S concentration on the properties of Cu2ZnSnS4 thin films and solar cells prepared by sol-gel sulfurization
Maeda K, Tanaka K, Fukui Y, Uchiki H |
| 2861 - 2866 |
Controlled growth of dibenzotetraphenylperiflanthene thin films by varying substrate temperature for photovoltaic applications
Zhou Y, Taima T, Shibata Y, Miyadera T, Yamanari T, Yoshida Y |
| 2867 - 2873 |
Preparation of highly electroactive cobalt sulfide core-shell nanosheets as counter electrodes for CdZnSSe nanostructure-sensitized solar cells
Yang ZS, Chen CY, Chang HT |
| 2874 - 2879 |
A hybridized electron-selective layer using Sb-doped SnO2 nanowires for efficient inverted polymer solar cells
Kim YS, Yu BK, Kim DY, Kim WB |
| 2880 - 2885 |
Fe3O4 nanoparticles induced magnetic field effect on efficiency enhancement of P3HT:PCBM bulk heterojunction polymer solar cells
Zhang WF, Xu Y, Wang HT, Xu CH, Yang SF |
| 2886 - 2892 |
Nanoimprint patterning for tunable light trapping in large-area silicon solar cells
Bessonov A, Cho Y, Jung SJ, Park EA, Hwang ES, Lee JW, Shin M, Lee S |
| 2893 - 2896 |
Effect of solution processed graphene oxide/nickel oxide bi-layer on cell performance of bulk-heterojunction organic photovoltaic
Ryu MS, Jang J |
| 2897 - 2906 |
Crystal structures and thermochemistry on phase change materials (n-CnH2n+1NH3)(2)CuCl4(s) (n=14 and 15)
He DH, Di YY, Tan ZC, Yi FF, Dan WY, Liu YP |
| 2907 - 2913 |
Structure, composition and optical properties of Cu2ZnSnS4 thin films deposited by Pulsed Laser Deposition method
Sun L, He J, Kong H, Yue FY, Yang PX, Chu JH |
| 2914 - 2919 |
Enhancing the short-circuit current and efficiency of organic solar cells using MoO3 and CuPc as buffer layers
Cheng F, Fang GJ, Fan X, Liu NS, Sun NH, Qin PL, Zheng Q, Wan JW, Zhao XZ |
| 2920 - 2923 |
Tunnel current through a miniband in InGaAs quantum dot superlattice solar cells
Sugaya T, Numakami O, Furue S, Komaki H, Amano T, Matsubara K, Okano Y, Niki S |
| 2924 - 2927 |
Highly enhanced p-type electrical conduction in wide band gap Cu1+xAl1-xS2 polycrystals
Huang FQ, Liu ML, Yang CY |
| 2928 - 2932 |
Nearly carbon-free printable CIGS thin films for solar cell applications
Lee E, Park SJ, Cho JW, Gwak J, Oh MK, Min BK |
| 2933 - 2936 |
Nondestructive local analysis of current-voltage characteristics of solar cells by lock-in thermography
Breitenstein O |
| 2937 - 2940 |
Heteromorphic chloroindium phthalocyanine films for improved photovoltaic performance
Bamsey NM, Yuen AP, Hor AM, Klenkler R, Preston JS, Loutfy RO |
| 2941 - 2945 |
Spin-coating silicon-quantum-dot ink to improve solar cell efficiency
Pi XD, Li Q, Li DS, Yang DR |
