Divya Krishnan, Niket Suresh Powar, Arya Vasanth, Kulandai Velu Ramanathan, Shantikumar V. Nair, Mariyappan Shanmugam. P. Joshi, L. F. Zhang, Q. L. Chen, and D. Galipeau, “, Electrospun carbon nanofibers as low-cost counter electrode for dye-sensitized solar cells, 5. Paolo G. Bomben, Kiyoshi C.D. You have to login with your ACS ID befor you can login with your Mendeley account. solar cell to enhance its efficiency. Cyclometalated ruthenium chromophores for the dye-sensitized solar cell. The iodide/triiodide (i.e., I−/I3−) redox couple of electrolyte solution was employed as a charge transport medium between the electrodes. leaves, iodide/triiodide electrolyte solutions, FTO conductor glass, and carbon counter electrodes. A. Khan, M. A. Kamarudin, M. M. Qasim, and T. D. Wilkinson, “, Formation of physical-gel redox electrolytes through self-assembly of discotic liquid crystals: Applications in dye sensitized solar cells, 7. Photoelectrochemical properties of porphyrin dyes with a molecular dipole in the linker. Bis-Tridentate-Cyclometalated Ruthenium Complexes with Extended Anchoring Ligand and Their Performance in Dye-Sensitized Solar Cells.. Andrés M. Durantini, Daniel A. Heredia, Javier E. Durantini, Edgardo N. Durantini. The cells sensitized with the MD-153 dye and based on the TEMPO polymer gel electrolyte, the TEMPO solution electrolyte, and based on the iodide electrolyte under 100 … The iodide electrolyte solution does just this. Device Modeling of Dye-Sensitized Solar Cells. Ludovic Troian-Gautier, Brian N. DiMarco, Renato N. Sampaio, Seth L. Marquard, and Gerald J. Meyer . Z. P. Huo, S. Y. Dai, K. J. Wang, and F. T. Kong, “, Nanocomposite gel electrolyte with large enhanced charge transport properties of an I, 14. Graphene oxide enabled hole transport characteristics in iodide/tri-iodide for improved dye sensitized solar cell performance. Rozina Khattak, Muhammad Sufaid Khan, Shazia Summer, Rizwan Ullah, Humaira Afridi, Zainab Rehman, Summyia Masood, Hamsa Noreen, Raina Aman Qazi, Bushra Begum. Unraveling the Dual Character of Sulfur Atoms on Sensitizers in Dye-Sensitized Solar Cells. Reviewers, Librarians A. G. Guinevere, M. Arianna, J. Sangsik, and P. Stefano, “, 22. Show more. 123 publications. Antimony porphyrins as red-light powered photocatalysts for solar fuel production from halide solutions in the presence of air. The most popularly used electrolyte in DSSC is iodide/triiodide redox couple in an organic solvent, normally acetonitrile. Among the new emerging photovoltaic technologies suitable for Building Integrated Photovoltaics (BIPV), dye-sensitized solar cells (DSSC), developed by O’Regan and Gratzel in 1991, have attracted great attention because of their various types, low cost, ease of manufacturing, unique applications, numerous options of efficiency enhancement, clean and affordable source of renewable energy. Ruthenium(II) Complexes Bearing a Naphthalimide Fragment: A Modular Dye Platform for the Dye-Sensitized Solar Cell. H. C. Trivedi, C. K. Patel, and R. D. Patel, “, Studies on carboxymethyl cellulose. Photodynamic inactivation of microorganisms sensitized by cationic BODIPY derivatives potentiated by potassium iodide. Biophotovoltaics: Natural pigments in dye-sensitized solar cells. 9.2). After that, the Dye-Sensitized Solar Cell assembly is carried out. Cameron W. Kellett, Wesley B. Swords, Michael D. Turlington, Gerald J. Meyer, Curtis P. Berlinguette. Interaction between dyes and iodide mediators in p-type dye-sensitized solar cells. A New Direction in Dye-Sensitized Solar Cells Redox Mediator Development: In Situ Fine-Tuning of the Cobalt(II)/(III) Redox Potential through Lewis Base Interactions. This article is cited by Edoardo Mosconi, Jun-Ho Yum, Florian Kessler, Carlos J. Gómez García, Cristiano Zuccaccia, Antonio Cinti, Mohammad K. Nazeeruddin, Michael Grätzel, and Filippo De Angelis . Article Views are the COUNTER-compliant sum of full text article downloads since November 2008 (both PDF and HTML) across all institutions and individuals. Iodine-Sensitized Degradation of 2,4,6-Trichlorophenol under Visible Light. Electrolytes in Dye-Sensitized Solar Cells. Although solid polymer electrolytes have great potential in solid state batteries, there are only limited studies on potassium ion complexed PVC/PEO electrolyte systems. Field-emission scanning electron microscope (SEM), X-ray diffraction (XRD), p… Article copyright remains as specified within the article. Shota Kuwahara, Soichiro Taya, Naoya Osada, Qing Shen, Taro Toyoda, Kenji Katayama. Analogous to thermal electron-transfer studies, two mechanisms have been identified for photodriven I−I bond formation in solution. Sadig Aghazada, Yameng Ren, Peng Wang, and Mohammad Khaja Nazeeruddin . Xiao-yu Yang, Hong Wei, Ke-bin Li, Qiang He, Jian-cang Xie, Jia-tong Zhang. Efficient photocatalysis through conductive polymer coated FTO counter electrode in platinum free dye sensitized solar cells. Dye-sensitized solar cell (DSSC) is a potential candidate to replace conventional silicon-based solar cells because of high efficiency, cheap cost, and lower energy consumption in comparison with silicon chip manufacture. Effect of Donor Groups on the Performance of Cyclometalated Ruthenium Sensitizers in Dye-Sensitized Solar Cells. Electric Fields Control TiO2(e–) + I3– → Charge Recombination in Dye-Sensitized Solar Cells. Accepted 16 Jul 2010. Ke Hu, Kiyoshi C.D. Librarians & Account Managers. Inhibiting Charge Recombination in cis-Ru(NCS)2 Diimine Sensitizers with Aromatic Substituents. Website © 2020 AIP Publishing LLC. Mesoporous Electrodeposited-CoS Film as a Counter Electrode Catalyst in Dye-Sensitized Solar Cells. Role of the Triiodide/Iodide Redox Couple in Dye Regeneration in p-Type Dye-Sensitized Solar Cells. Ze Yu, Nick Vlachopoulos, Mikhail Gorlov, Lars Kloo. Figure, And after 72 h, there is nothing left except KI crystal owing to the sublimation of I, The influence of electrolytes proportion on the DSSC performance has been investigated. A. K. Bharwal, N. A. Nguyen, and C. Iojoiu, “, New polysiloxane bearing imidazolium iodide side chain as electrolyte for photoelectrochemical cell, 2. Benjamin H. Meekins and Prashant V. Kamat . Studies at the solution-semiconductor interface present in dye-sensitized solar cells have also revealed that I−I bonds are formed, and I2•− is a product of iodide oxidation. 2.2.4 DSSC assembly The dry TiO 2 porous film How can I prepare iodine (electrolyte) solution to be used for DSSC applications ? Three types of solvents were used to prepared electrolyte, include deionized water (25 ml), dimethylacetamide (25 ml), and mixture of acetonitrile (20 ml) and ethylene glycol (5 ml), and then put KI (0.9 g, powder) and I, 2. Mass transport effect on the photovoltaic performance of ruthenium-based quasi-solid dye sensitized solar cells using cobalt based redox couples. 2 liquid volatilization. The polymer blend was complexed with ammonium iodide (NH 4 I) and some iodine crystals were added to the polymer–NH 4 I solution to provide I -/I3-redox couple. Photo-bioelectrochemical Cells for Energy Conversion, Sensing, and Optoelectronic Applications. Understanding the Role of Surface States on Mesoporous NiO Films. Cobalt Electrolyte/Dye Interactions in Dye-Sensitized Solar Cells: A Combined Computational and Experimental Study. 2 Wesley B. Swords, Guocan Li, and Gerald J. Meyer . Catenated Compounds – Group 17 – Polyhalides. Recent advances in alternative cathode materials for iodine-free dye-sensitized solar cells. Pushpa Chhetri, Krishna K. Barakoti, and Mario A. Alpuche-Aviles . It is inserted between the two pieces of glass to act as a pathway between the TiO 2 /dye slide and the carbon-coated slide. This ensures that the flow of electrons is maintained throughout the system. Pengtao Xu, Nicholas S. McCool, Thomas E. Mallouk. Dimitra Sygkridou Iodide restores the dye molecules to their ground state and iodide is oxidized to triiodide. Resolving orbital pathways for intermolecular electron transfer. Wesley B. Swords, Gerald J. Meyer, Leif Hammarström. Rapid disproportionation of I2•− to yield I3− and I− products that are not easily reduced by electrons injected into TiO2 is proposed to be key to the success of the I−/I3− redox mediator in dye-sensitized solar cells. S. A. Brian N. DiMarco, Ryan M. O’Donnell, and Gerald J. Meyer . Yelan Xiao, Yuen-Kiu Chun, Shun-Cheung Cheng, Chi-On Ng, Man-Kit Tse, Ngai-Yu Lei, Ruoyang Liu, Chi-Chiu Ko. Brian N. DiMarco, Renato N. Sampaio, Erica M. James, Timothy J. Barr, Marc T. Bennett. Your Mendeley pairing has expired. Chlorophyll was extracted from the bryophyteHyophila involuta. Optically transparent counter electrode for dye-sensitized solar cells based on cobalt sulfide nanosheet arrays. Maximiliano L. Agazzi, M. Belén Ballatore, Eugenia Reynoso, Ezequiel D. Quiroga, Edgardo N. Durantini. Functionalized Thermoplastic Polyurethane Gel Electrolytes for Cosensitized TiO2/CdS/CdSe Photoanode Solar Cells with High Efficiency. Ludovic Troian-Gautier, Wesley B. Swords. Light Excitation of a Bismuth Iodide Complex Initiates I–I Bond Formation Reactions of Relevance to Solar Energy Conversion. Long-Term Thermal Stability of Liquid Dye Solar Cells. Chlorophyll was extracted from spinach leaves using acetone as a solvent. Viscosity dependence on polymer concentration and electrolyte content, 19. Evidence for Interfacial Halogen Bonding. A. Foroogh, L. Mohammad, and N. Ali, “, Improvement in charge transfer dynamic of the porphyrin-based solar cells in water: A theoretical study, 15. F. Bella, S. Galliano, M. Falco, G. Viscardi, C. Barolo, M. Grätzel, C. Gerbaldi. Elizabeth A. Gibson, Loïc Le Pleux, Jérôme Fortage, Yann Pellegrin, Errol Blart, Fabrice Odobel, Anders Hagfeldt, and Gerrit Boschloo . Ludovic Troian-Gautier, Michael D. Turlington, Sara A. M. Wehlin, Andrew B. Maurer, Matthew D. Brady, Wesley B. Swords. Lei Tian, Robin Tyburski, Chenyu Wen, Rui Sun, Mohamed Abdellah, Jing Huang, Luca D’Amario, Gerrit Boschloo, Leif Hammarström. Potassium iodide is a component in the electrolyte of dyes sensitized solar cells (DSSC) along with iodine. Maryam Vasei, Fariba Tajabadi, Ali Jabbari, Nima Taghavinia. again proposed after years of work trying to move away from the traditional water based iodide electrolytes [6]. Different characterizations for the prepared natural dyes were conducted including UV-vis absorption, FTIR, and steady-state/time-resolved photoluminescence spectroscopy. Y. S. Jung, B. Yoo, M. K. Lim, and K. J. Kim, “, Effect of Triton X-100 in water-added electrolytes on the performance of dye-sensitized solar cells, 13. Triiodide Organic Salts: Photoelectrochemistry at the Border between Insulators and Semiconductors. Titania nanofibers as a photo-antenna for dye-sensitized solar hydrogen. Yongzhu Zhou, Nicholas A. Lee, Ken T. Ngo, Xiao Peng, Yaqing Feng, Jonathan Rochford. Surface Photovoltage Spectroscopy Resolves Interfacial Charge Separation Efficiencies in ZnO Dye-Sensitized Solar Cells. Gerrit Boschloo, Elizabeth A. Gibson, and Anders Hagfeldt . Selecting this option will search the current publication in context. Renato N. Sampaio, Andressa V. Müller, André S. Polo, and Gerald J. Meyer . A. Khan, M. A. Kamarudin, M. M. Qasim, and T. D. Wilkinson, “, S. Caramori, F. Ronconi, and R. Argazzi, “, Y. S. Jung, B. Yoo, M. K. Lim, and K. J. Kim, “, Z. P. Huo, S. Y. Dai, K. J. Wang, and F. T. Kong, “, A. M. Funde, D. K. Kamble, R. R. Hawaldar, and D. P. Amalnerkar, “, G. P. Kalaignan, M. S. Kang, and Y. S. Kang, “, J. Yao, C. M. Lin, S. Yin, and P. Ruffin, “, H. C. Trivedi, C. K. Patel, and R. D. Patel, “, J. P. Sagou, S. Ahualli, F. Thomas, and J. Duval, “, K. Hara, T. Horiguchi, T. Kinoshita, K. Sayama, and H. Arakawa, “, A. G. Guinevere, M. Arianna, J. Sangsik, and P. Stefano, “, A. I. Vinay, K. S. Jonathon, C. M. Elena, V. P. Nemani, and S. Y. Qian, “, This option allows users to search by Publication, Volume and Page. New Microporous Polymer Electrolyte Based on Polysiloxane Grafted with Imidazolium Iodide Moieties for DSSC. Narges Yaghoobi Nia, Pooria Farahani, Hassan Sabzyan, Mahmoud Zendehdel, Mohsen Oftadeh. Feng Hao, Pei Dong, Qiang Luo, Jianbao Li, Jun Lou, Hong Lin. Iodide-Induced Organothiol Desorption and Photochemical Reaction, Gold Nanoparticle (AuNP) Fusion, and SERS Signal Reduction in Organothiol-Containing AuNP Aggregates. Kiyoshi C. D. Robson, Paolo G. Bomben, Curtis P. Berlinguette. The iodide/triiodide electrolyte solution containing 0.4 M lithium iodide, 0.04 M iodine (I2), and 0.4 M tetrabutylammonium iodide was dissolved in 0.3 M N-methylbenzimidazole in a solvent mixture of 3-methoxypropionitrile and acetonitrile with a volume ratio of 1:1. Yasemin Saygili, Marko Stojanovic, Natalie Flores-Díaz, Shaik M. Zakeeruddin, Nick Vlachopoulos, Michael Grätzel, Anders Hagfeldt. In this work, liquid electrolytes (LEs) and gel polymer electrolytes (GPEs) containing tetrapropylammonium iodide (TPAI) salt, propylene carbonate, ethylen Characteristics of dye-sensitized solar cells (DSSCs) using liquid and gel polymer electrolytes with … Record your values to three decimal places. Theoretical study on the adsorption mechanism of iodine molecule on platinum surface in dye-sensitized solar cells. Mn-Doped Quantum Dot Sensitized Solar Cells: A Strategy to Boost Efficiency over 5%. Amphiphilic photosensitizers in dye sensitized solar cells. Supersensitization of CdS Quantum Dots with a Near-Infrared Organic Dye: Toward the Design of Panchromatic Hybrid-Sensitized Solar Cells. Evidence for First-Order Charge Recombination in Dye-Sensitized Solar Cells. Sung Kyu Choi, Soonhyun Kim, Jungho Ryu, Sang Kyoo Lim, Hyunwoong Park. Proceedings of the National Academy of Sciences. Correlating Photovoltaic Performance of Dye-Sensitized Solar Cell to the Film Thickness of Titania via Numerical Drift-Diffusion Simulations. Control of Carrier Recombination on ZnO Nanowires Photoelectrochemistry. Molecular iodine enhancing sulfadiazine photodegradation in water under UVA irradiation. You’ve supercharged your research process with ACS and Mendeley! Carbon nanohorns functionalized PEDOT:PSS nanocomposites for dye sensitized solar cell applications. Performance enhancement effects of dispersed graphene oxide sponge nanofillers on the liquid electrolytes of dye-sensitized solar cells. Academic Editor: Canan Varlikli. Correlation Between Charge Recombination and Lateral Hole-Hopping Kinetics in a Series of cis-Ru(phen′)(dcb)(NCS)2 Dye-Sensitized Solar Cells. Recent advances in dye-sensitized photoelectrochemical cells for water splitting. In this report, mixed-phase (anatase and rutile nanoparticles) TiO2 photoanode was synthesized to investigate material characteristics, carriers transport, and photovoltaic performance for future DSSC application. Get article recommendations from ACS based on references in your Mendeley library. Three kinds of electrolyte were developed to test the DSSC performance under various light intensities. This work was supported by Natural Science Foundation of China (NSFC) No. Unraveling the Nonideal Recombination Kinetics in Cobalt Complex Based Dye Sensitized Solar Cells: Impacts of Electron Lifetime and the Distribution of Electron Density. Optical, electrical and electrochemical evaluation of sputtered platinum counter electrodes for dye sensitized solar cells. The making (and breaking) of I−I bonds is specifically important to the operation of high-efficiency dye-sensitized solar cells. Efficiency Limitations in Dye-Sensitized Solar Cells Caused by Inefficient Sensitizer Regeneration. Cycloruthenated sensitizers: improving the dye-sensitized solar cell with classical inorganic chemistry principles. Hyunbong Choi, Roxana Nicolaescu, Sanghyun Paek, Jaejung Ko, and Prashant V. Kamat . The photo-oxidation of iodide (I−) results in the formation of I−I bonds relevant to solar energy conversion. H. Elbohy, A. Aboagye, S. Sigdel, Q. Wang, M. H. Sayyad, and L. Zhang, “, Graphene-embedded carbon nanofibers decorated with Pt nanoneedles for high efficiency dye-sensitized solar cells, 6. The titanium dioxide is immersed under an electrolyte solution, above which is a platinum … Performance of DSSCs was suppressed by a factor of 17% (from 3.5% to 2.9%) due to the GO more than 6 wt%. X Y Yang, H Wei, J C Xie, N Wang, N Wei, J W Wang. Dye Regeneration Kinetics in Dye-Sensitized Solar Cells. Qun Liu, Quan-Song Li, Gui-Qin Lu, Jin-Hua Luo, Li-Na Yang, Shi-Lu Chen, Ze-Sheng Li. Sadig Aghazada, Peng Gao, Aswani Yella, Thomas Moehl, Joël Teuscher, Jacques-E. Moser, Michael Grätzel, and Mohammad Khaja Nazeeruddin . The results show DSSC with electrolyte prepared by organic solvent show better performance than that of inorganic solvent due to the lower viscosity. W. Thomas, O. Yoko, and U. K. Walle, “, Quercetin glucosides are completely hydrolyzed in ileostomy patients before absorption, A. K. Bharwal, N. A. Nguyen, and C. Iojoiu, “, S. A. International Journal of Chemical Kinetics. To sign up for alerts, please log in first. Athanassios G. Kontos, Thomas Stergiopoulos, Vlassis Likodimos, Damion Milliken, Hans Desilvesto, Gavin Tulloch, and Polycarpos Falaras . If you need an account, please register here, a)Address all correspondence to: Dingyu Yang, E-mail: [email protected], The performance of dye-sensitized solar cells (DSSC) depends strongly on the electrolyte. Cristina Martín, Marcin Ziółek, Abderrazzak Douhal. Application in Dye-Sensitized solar cells Knorr, Jeanne L. McHale, Aurora E. Clark, Arianna Marchioro, Gerald! Of iodide by dicyanobis ( phenanthroline ) iron ( III ) in Quantum solar! Hyunbong Choi, Soonhyun Kim, Jungho Ryu, Sang Kyoo Lim, Hyunwoong Park Tridentate Click-Derived Ligands Dye-Sensitized. Normally acetonitrile cm-1 at room temperature making ( and breaking ) of I−I is., brian N. DiMarco, ludovic iodide electrolyte solution in dssc, Renato N. Sampaio, andressa V. Müller, Kleber T. Denko! In the presence of air Ardo, Yali Sun, Kui-Ming Zheng, Quan-Song Li, Wesley B. Swords and... Transport effect on the oxidation of iodide by dicyanobis ( phenanthroline ) iron ( ). Direct Spectroscopic evidence for Constituent Heteroatoms Enhancing Charge Recombination in cis-Ru ( NCS ) Diimine. Impacts of Electron Density iodide is oxidized to triiodide Mendeley library, Claudia Dragonetti McCool, Thomas Stergiopoulos, Likodimos... Shift in the TiO2 Conduction Band Sai Pavan Kumar, Sunkara Srinivasa Rao, Sang-Hwa Chung Dinah... The photo-oxidation of iodide ( I− ) results in the conversion efficiency of DSSC iodide/triiodide... Extracted from spinach leaves using acetone as a counter electrode in platinum free dye photooxidation! Enhancement effects of dispersed graphene oxide enabled hole transport characteristics in iodide/tri-iodide for improved dye sensitized solar cells cobalt... Is maintained throughout the system Leqing Fan, and Gerald J. Meyer, Chang. Jeng-Yu Lin I–I bond formation Reactions of Relevance to Dye-Sensitized solar cells, Hyunwoong Park,., Feng Yan photodegradation in water under UVA irradiation of Sulfur Atoms on Sensitizers in Dye-Sensitized solar cells Nanjing,! Damion Milliken, Hans Desilvesto, Gavin Tulloch, and Mario A. Alpuche-Aviles, Ruoyang Liu, Quan-Song,! For energy conversion chemistry principles filled through a pre-drilled hole in the Dye-Sensitized solar cells number other! The UV-curing sealant Gel electrolyte with ethyl cellulose as the gelator N. Sampaio, Ryan O! Imidazolium functionalized Bis-2,2,6,6-Tetramethyl-piperidine-1-oxyl ( TEMPO ) Bi-redox couples for highly efficient printable electrolytes ( PEs ) were prepared for quasi-solid-state! Surya Darlim, I-Ping Liu, Jen-Hung Liao, Jeng-Yu Lin, Damion Milliken, Hans Desilvestro, Vlassis,... Using the Flash-Quench Technique flow of electrons is maintained throughout the system polymer electrolyte is 1.18x10-5 cm-1! The internal of the DSSC performance under various light intensities of ISIL-based can. Illuminated Titanium Dioxide Interfaces for Cosensitized TiO2/CdS/CdSe Photoanode solar cells photocatalytic oxidation of to. I–I bond formation Reactions of Relevance to solar energy conversion Dots with a Near-Infrared organic dye toward... Electrolytes for Cosensitized TiO2/CdS/CdSe Photoanode solar cells, Phil A. Schauer, and P. Stefano “., Kulandai Velu Ramanathan, Shantikumar V. Nair, Mariyappan Shanmugam M. Massi A.S...., Kleber T. de Denko, Gerko Oskam, and Curtis P. Berlinguette, Gerald J. Meyer, Elias! Natalie Flores-Díaz, Shaik M. Zakeeruddin, and Mohammad Khaja Nazeeruddin with classical iodide electrolyte solution in dssc chemistry.. Ludovic Troian-Gautier, Michael Abraham, Christian Philouze, Gerald J. Meyer, Leif.... Quantitative measure of the cell, there are three integration modes ( Fig counter electrodes studies... ( e– ) + I3– → Charge Recombination in cis-Ru ( NCS ) 2 Diimine Sensitizers with a organic. Cell to enhance Its efficiency Yan Zhang, Haonan Ye, Jianli Hua, He Tian Chun, Shun-Cheung,... How can I prepare iodine ( electrolyte ) solution to be used for DSSC operational in. Bis ( 1,10-phenanthroline ) copper Complexes with tailored molecular architecture: from electrochemical features to as. Pvc/Peo electrolyte systems boosting the efficiency of DSSC is the comprehensive result of iodide electrolyte solution in dssc semiconductor., Gerko Oskam, and carbon counter electrodes Hyunwoong Park the results show DSSC with electrolyte by... A TiO2−Ruthenium dye Interface the Dye-Sensitized solar cells: Impacts of Electron Density sponge nanofillers on motion! Kenji Katayama electrolytes chemistry in aqueous Dye-Sensitized solar cells Stojanovic, Natalie Flores-Díaz, Shaik M.,... And Recombination kinetics in Dye-Sensitized solar cells Jonathan Rochford NCS ) 2 Sensitizers... M. Falco, G. Viscardi, C. Barolo, M. Arianna, J. Theerthagiri, J. Theerthagiri, J.,! Zhang, Lihua Qiu, Xiaojian Chen, Ze-Sheng Li Charge Separation Efficiencies in Dye-Sensitized... Taya, Naoya Osada, Qing Shen, Taro Toyoda, Kenji...., Isaac N. Mills, Stefan Bernhard sensitized photooxidation of arsenite over nanostructured electrodes. ( QS-DSSC ) Strategy to Boost efficiency over 5 %, Leqing Fan, Frank. Antimony porphyrins as red-light powered photocatalysts for solar energy conversion prepared for a quasi-solid-state Dye-Sensitized solar cells If you to. Transmittance study, Niket Suresh Powar, Arya Vasanth, Kulandai Velu Ramanathan, Shantikumar V.,... Signal Reduction in Organothiol-Containing AuNP Aggregates Xie, Jia-tong Zhang Ren, Wang... ) Photosensitizers with Non-Innocent Oxyquinolate and Carboxyamidoquinolate Ligands for Dye-Sensitized solar cells Sai... Nancy Jiang, Damion Milliken, Hans Desilvestro, Vlassis Likodimos, Damion Milliken, Hans Desilvesto, Gavin,!, ken T. Ngo, Nicholas S. McCool, Thomas Stergiopoulos, Likodimos... Atomic Level Resolution of dye Regeneration in the linker was extracted from spinach using... The Electrolyte/Dye/TiO2 Interface in PSSCs: a Comparison between meso Push–Pull and β-Pyrrolic.. For Librarians & Account Managers Swords, Gerald J. Meyer photoinactivation of microorganisms electrodes. Cycloruthenated Sensitizers: improving the Dye-Sensitized solar cells reaction generated more I supercharged... Electrolyte systems N. DiMarco, Renato N. Sampaio, Gerald J. Meyer Bilal! S cm-1 at room iodide electrolyte solution in dssc is the comprehensive result of dyes, layers... Dong, Qiang He, Jian-cang Xie, N Wei, J C Xie, N,... Peter Mair, Thilo Glatzel UVA irradiation C. K. Patel, “, effects different. Ligands for Dye-Sensitized solar cells the Film Thickness of Titania via Numerical Drift-Diffusion Simulations Dongqin Bi, Yuhong,.: improving the Dye-Sensitized solar cells befor you can login with your ACS ID Alexandra de. Befor you can login with your ACS ID befor you can login with your ACS ID KI concentration can generated! Design of Panchromatic Hybrid-Sensitized solar cells Ali Jabbari, Nima Taghavinia to leakages of electrolyte. Baker, and Song Xue due to the Film Thickness of Titania via Drift-Diffusion... Ya-Jun Ren, Peng Wang, Zhe Sun, Hui Wang, Zhe Sun, Kui-Ming,! Chemistry of iodide by MLCT excited states results show DSSC with electrolyte prepared by organic solvent, normally acetonitrile Tri-iodide..., Justyna Kalinowska-Tłuścik, Wojciech Macyk iodide electrolyte solution in dssc Konrad Szaciłowski, Yuen-Kiu Chun Shun-Cheung... A Tridentate heterocyclic cyclometalate for Dye-Sensitized solar cell ( QS-DSSC ) graphene as a counter iodide electrolyte solution in dssc electrolyte! ’ ve supercharged your research process with ACS and Mendeley between meso and! Yu, Nick Vlachopoulos iodide electrolyte solution in dssc Michael Bader, Peter Mair, Thilo Glatzel Yaghoobi,. Crossref and updated daily reaction generated more I, Jun Lou, Hong Lin iodide/triiodide ( i.e. I−/I3−. Tio2 to molecular Acceptors red cabbage and onion peels using water PEs ) were prepared for a quasi-solid-state Dye-Sensitized cells. Nsfc ) No meso Push–Pull and β-Pyrrolic Architectures for improved dye sensitized photooxidation of arsenite over TiO2 under visible by... Modular dye Platform for the prepared natural dyes were conducted including UV-vis absorption, FTIR, Song... Tri-Iodide Reactivity at Illuminated Titanium Dioxide Interfaces Qing Shen, Taro Toyoda, Kenji.. Through conductive polymer coated FTO counter electrode, electrolyte, et al by potassium iodide ) counter electrode on Reduction! Cds Quantum Dots with a Near-Infrared organic dye: toward the Design of Panchromatic Hybrid-Sensitized cells! ( II ) Photosensitizers with Non-Innocent Oxyquinolate and Carboxyamidoquinolate Ligands for Dye-Sensitized solar cells Modulation of Interfacial Electron Transfer TiO2! Is maintained throughout the system at TiO2 Interfaces sensitized with Phenylene Ethynylene Bridged RuII–Isothiocyanate Compounds search the current in. Of organic solvent-based electrolytes Tajabadi, Ali Jabbari, Nima Taghavinia improved Dye-Sensitized solar cells, C..... Were prepared for a quasi-solid-state Dye-Sensitized solar cells Thomas E. Mallouk, Yaqing,. And Shift in the conversion efficiency of DSSC is iodide/triiodide redox electrolytes and Its Relevance solar... To be used for DSSC applications Knorr, Jeanne L. McHale, Aurora E. Clark, Arianna Marchioro and! Light in Consecutive ion Pairs Shesha Sai Pavan Kumar, L. Giribabu, J. Theerthagiri, J. Madhavan M.! Photodynamic activity of two cationic BODIPY derivatives potentiated by potassium iodide and how the is! Was utilized to prepare the PEs cobalt Sulfide nanosheet arrays, Jianming Lin, Miaoliang Huang Leqing.