Articles citing this paper
Photochemical Upconversion Enhanced Solar Cells: Effect of a Back Reflector
Tim F. Schulze A , Yuen Yap Cheng A , Burkhard Fückel A , Rowan W. MacQueen A , Andrew Danos A , Nathaniel J. L. K. Davis A , Murad J. Y. Tayebjee A , Tony Khoury A , Raphaël G. C. R. Clady A , N. J. Ekins-Daukes B , Maxwell J. Crossley A , Bernd Stannowski C , Klaus Lips D and Timothy W. Schmidt A E F
+ Author Affiliations
- Author Affiliations
A School of Chemistry, The University of Sydney, NSW 2006, Australia.
B Department of Physics and the Grantham Institute for Climate Change, Imperial College, London, UK SW7 2AZ.
C Competence Centre Thin-Film- and Nanotechnology for Photovoltaics Berlin (PVcomB), Helmholtz-Zentrum Berlin für Materialien und Energie, 12489 Berlin, Germany.
D Institute for Silicon Photovoltaics, Helmholtz-Zentrum Berlin für Materialien und Energie, 12489 Berlin, Germany.
E Institute of Photonics and Optical Science, The University of Sydney, NSW 2006, Australia.
F Corresponding author. Email: t.schmidt@chem.usyd.edu.au
Australian Journal of Chemistry 65(5) 480-485 https://doi.org/10.1071/CH12117
Submitted: 24 February 2012 Accepted: 14 March 2012 Published: 14 May 2012
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Schmidt Timothy W., Hanson Kenneth
ACS Applied Materials & Interfaces. 2021 13(28). p.32601
BIOPHYSCHEM2011: A Joint Meeting of the Australian Society for Biophysics and the RACI Physical Chemistry Division
Trevitt Adam J.,
Reimers Jeffrey R.,
Clarke Ronald J., Vandenberg Jamie I.
Australian Journal of Chemistry. 2012 65(5). p.439
Action spectrum experiment for the measurement of incoherent photon upconversion efficiency under sun-like excitation
MacQueen Rowan W.,
Cheng Yuen Yap,
Danos Andrew N.,
Lips Klaus, Schmidt Timothy W.
RSC Adv.. 2014 4(95). p.52749
Upconversion Luminescent Materials: Advances and Applications
Zhou Jing,
Liu Qian,
Feng Wei,
Sun Yun, Li Fuyou
Chemical Reviews. 2015 115(1). p.395
Integrated Photon Upconversion Solar Cell via Molecular Self-Assembled Bilayers
Hill Sean P.,
Dilbeck Tristan,
Baduell Enric, Hanson Kenneth
ACS Energy Letters. 2016 1(1). p.3
Advanced Concepts in Photovoltaics (2014)
Optimizing the Efficiency of Solar Photon Upconversion
Frazer Laszlo,
Gallaher Joseph K., Schmidt T. W.
ACS Energy Letters. 2017 2(6). p.1346
Optical analysis of an integrated solar cell and a photon up converter, providing guidance for future device engineering efforts
Hamzawy Sameh,
Wagner Pawel,
Gallaher Joseph K.,
Schmidt Timothy W.,
Mozer Attila J., Nattestad Andrew
Journal of Applied Physics. 2021 130(19).
Challenges, progress and prospects in solid state triplet fusion upconversion
Alves Jessica,
Feng Jiale,
Nienhaus Lea, Schmidt Timothy W.
Journal of Materials Chemistry C. 2022 10(20). p.7783
Broadband Up-Conversion at Subsolar Irradiance: Triplet–Triplet Annihilation Boosted by Fluorescent Semiconductor Nanocrystals
Monguzzi A.,
Braga D.,
Gandini M.,
Holmberg V. C.,
Kim D. K.,
Sahu A.,
Norris D. J., Meinardi F.
Nano Letters. 2014 14(11). p.6644
Influence of meta- and para-phosphonated diphenylanthracene on photon upconversion in self-assembled bilayers
Zhou Yan,
Hill Sean P., Hanson Kenneth
Journal of Photonics for Energy. 2017 8(02). p.1
Upconversion Nanoparticles (UCNPs) for Functional Applications (2023)
Enhancement of photocatalytic properties of nanosized La2Ti2O7 synthesized by glycine-assisted sol-gel route
Leroy Sébastien,
Blach Jean-François,
Kopia Agnieszka,
Lech Sebastian,
Cieniek Łukasz,
Kania Nicolas, Saitzek Sébastien
Journal of Photochemistry and Photobiology A: Chemistry. 2022 426 p.113739
High efficiency deep red to yellow photochemical upconversion under solar irradiance
Gallaher Joseph K.,
Wright Katherine M.,
Frazer Laszlo,
MacQueen Rowan W.,
Crossley Maxwell J.,
Castellano Felix N., Schmidt Timothy W.
Energy & Environmental Science. 2021 14(10). p.5541
Comprehensive Renewable Energy (2022)
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Chen Kepeng,
Yang Songqiu,
Zheng Daoyuan,
Ren Guanghua,
Yang Yang,
Zhao Jianzhang,
Wei Donghui, Han Keli
The Journal of Physical Chemistry Letters. 2019 10(15). p.4368
Engineering Light: Advances in Wavelength Conversion Materials for Energy and Environmental Technologies
Cates Ezra L.,
Chinnapongse Stephanie L.,
Kim Jae-Hyuk, Kim Jae-Hong
Environmental Science & Technology. 2012 46(22). p.12316
Materials Integrating Photochemical Upconversion
McCusker Catherine E., Castellano Felix N.
Topics in Current Chemistry. 2016 374(2).
Annihilation Limit of a Visible-to-UV Photon Upconversion Composition Ascertained from Transient Absorption Kinetics
Deng Fan,
Blumhoff Jörg, Castellano Felix N.
The Journal of Physical Chemistry A. 2013 117(21). p.4412
Organic Solar Cells: Understanding the Role of Förster Resonance Energy Transfer
Feron Krishna,
Belcher Warwick,
Fell Christopher, Dastoor Paul
International Journal of Molecular Sciences. 2012 13(12). p.17019
Orange-to-blue and red-to-green photon upconversion with a broadband absorbing copper(i) MLCT sensitizer
McCusker Catherine E., Castellano Felix N.
Chemical Communications. 2013 49(34). p.3537
Porphyrin–Anthracene Complexes: Potential in Triplet–Triplet Annihilation Upconversion
Gray Victor,
Börjesson Karl,
Dzebo Damir,
Abrahamsson Maria,
Albinsson Bo, Moth-Poulsen Kasper
The Journal of Physical Chemistry C. 2016 120(34). p.19018
CdS/ZnS core–shell nanocrystal photosensitizers for visible to UV upconversion
Gray Victor,
Xia Pan,
Huang Zhiyuan,
Moses Emily,
Fast Alexander,
Fishman Dmitry A.,
Vullev Valentine I.,
Abrahamsson Maria,
Moth-Poulsen Kasper, Lee Tang Ming
Chemical Science. 2017 8(8). p.5488
Examining the role of acceptor molecule structure in self-assembled bilayers: surface loading, stability, energy transfer, and upconverted emission
Zhou Yan,
Ayad Suliman,
Ruchlin Cory,
Posey Victoria,
Hill Sean P.,
Wu Qiang, Hanson Kenneth
Physical Chemistry Chemical Physics. 2018 20(31). p.20513
Towards efficient solid-state triplet–triplet annihilation based photon upconversion: Supramolecular, macromolecular and self-assembled systems
Gray Victor,
Moth-Poulsen Kasper,
Albinsson Bo, Abrahamsson Maria
Coordination Chemistry Reviews. 2018 362 p.54
Beyond Shockley–Queisser: Molecular Approaches to High-Efficiency Photovoltaics
Tayebjee Murad J. Y.,
McCamey Dane R., Schmidt Timothy W.
The Journal of Physical Chemistry Letters. 2015 6(12). p.2367
Performance Improvement of Triplet–Triplet Annihilation-Based Upconversion Solid Films through Plasmon-Induced Backward Scattering of Periodic Arrays of Ag and Al
Sugawa Kosuke,
Yoshinari Satoshi,
Watanabe Shiryu,
Ishida Kosuke,
Jin Shota,
Takeshima Naoto,
Fukasawa Toru,
Fukushima Misa,
Katoh Ryuzi,
Takase Kouichi,
Tahara Hironobu, Otsuki Joe
Langmuir. 2021 37(39). p.11508
Dye-Sensitized Solar Cell with Integrated Triplet–Triplet Annihilation Upconversion System
Nattestad Andrew,
Cheng Yuen Yap,
MacQueen Rowan W.,
Schulze Tim F.,
Thompson Fletcher W.,
Mozer Attila J.,
Fückel Burkhard,
Khoury Tony,
Crossley Maxwell J.,
Lips Klaus,
Wallace Gordon G., Schmidt Timothy W.
The Journal of Physical Chemistry Letters. 2013 4(12). p.2073
Emerging Strategies to Reduce Transmission and Thermalization Losses in Solar Cells (2022)
Photonic Crystal‐Driven Spectral Concentration for Upconversion Photovoltaics
Marques‐Hueso Jose,
Peretti Romain,
Abargues Rafael,
Richards Bryce S.,
Seassal Christian, Martínez‐Pastor Juan P.
Advanced Optical Materials. 2015 3(4). p.568
Highly-efficient red-to-yellow/green upconversion sensitized by phthalocyanine palladium with high triplet energy-level
Wang Kai,
Huang Suqin,
Ding Ping,
Liang Zuoqin,
Chen Shuoran,
Li Lin,
Ye Changqing, Wang Xiaomei
RSC Advances. 2021 11(29). p.17755
Photon Upconversion by Triplet–Triplet Annihilation in Ru(bpy)3- and DPA-Functionalized Polymers
Boutin Philip C.,
Ghiggino Kenneth P.,
Kelly Timothy L., Steer Ronald P.
The Journal of Physical Chemistry Letters. 2013 4(23). p.4113
Deuteration of Perylene Enhances Photochemical Upconversion Efficiency
Danos Andrew,
MacQueen Rowan W.,
Cheng Yuen Yap,
Dvořák Miroslav,
Darwish Tamim A.,
McCamey Dane R., Schmidt Timothy W.
The Journal of Physical Chemistry Letters. 2015 6(15). p.3061
Photocurrent Enhancement from Solid-State Triplet–Triplet Annihilation Upconversion of Low-Intensity, Low-Energy Photons
Li Chuanhao,
Koenigsmann Christopher,
Deng Fan,
Hagstrom Anna,
Schmuttenmaer Charles A., Kim Jae-Hong
ACS Photonics. 2016 3(5). p.784
Intramolecular Versus Intermolecular Triplet Fusion in Multichromophoric Photochemical Upconversion
Gao Can,
Prasad Shyamal K. K.,
Zhang Bolong,
Dvořák Miroslav,
Tayebjee Murad J. Y.,
McCamey Dane R.,
Schmidt Timothy W.,
Smith Trevor A., Wong Wallace W. H.
The Journal of Physical Chemistry C. 2019 123(33). p.20181
A Study of Redox Mediator Types and Their Quenching Effects on the Triplet–Triplet Annihilation Photon Upconversion Process
Hamzawy Sameh,
Wagner Pawel,
Mori Takeshi,
Al-Attafi Kadhim,
Mozer Attila J., Nattestad Andrew
The Journal of Physical Chemistry C. 2023 127(40). p.19906
Constraints imposed by the sparse solar photon flux on upconversion and hot carrier solar cells
Sharma Abhinav S.,
Pusch Andreas,
Nielsen Michael P.,
Römer Udo,
Tayebjee Murad J.Y.,
Rougieux Fiacre E., Ekins-Daukes Nicholas J.
Solar Energy. 2022 237 p.44
Efficient Broadband Triplet–Triplet Annihilation‐Assisted Photon Upconversion at Subsolar Irradiance in Fully Organic Systems
Monguzzi Angelo,
Borisov Sergey M.,
Pedrini Jacopo,
Klimant Ingo,
Salvalaggio Mario,
Biagini Paolo,
Melchiorre Fabio,
Lelii Camilla, Meinardi Francesco
Advanced Functional Materials. 2015 25(35). p.5617
Molecular Photon Upconversion Solar Cells Using Multilayer Assemblies: Progress and Prospects
Dilbeck Tristan, Hanson Kenneth
The Journal of Physical Chemistry Letters. 2018 9(19). p.5810
Harnessing near-infrared lightviaS0to T1sensitizer excitation in a molecular photon upconversion solar cell
Beery Drake,
Arcidiacono Ashley,
Wheeler Jonathan P.,
Chen Jiaqi, Hanson Kenneth
Journal of Materials Chemistry C. 2022 10(12). p.4947
Upconversion for Photovoltaics – a Review of Materials, Devices and Concepts for Performance Enhancement
Goldschmidt Jan Christoph, Fischer Stefan
Advanced Optical Materials. 2015 3(4). p.510
Photochemical upconversion and triplet annihilation limit from a boron dipyrromethene emitter
Deng F.,
Francis A. J.,
Weare W. W., Castellano F. N.
Photochemical & Photobiological Sciences. 2015 14(7). p.1265
Nonlinear optoelectronic processes in organic optoelectronic devices: Triplet-triplet annihilation and singlet fission
Qiao Xianfeng, Ma Dongge
Materials Science and Engineering: R: Reports. 2020 139 p.100519
Recent advances in the application triplet–triplet annihilation-based photon upconversion systems to solar technologies
Pedrini Jacopo, Monguzzi Angelo
Journal of Photonics for Energy. 2017 8(02). p.1
Near-Infrared-to-Visible Photon Upconversion Enabled by Conjugated Porphyrinic Sensitizers under Low-Power Noncoherent Illumination
Olivier Jean-Hubert,
Bai Yusong,
Uh Hyounsoo,
Yoo Hyejin,
Therien Michael J., Castellano Felix N.
The Journal of Physical Chemistry A. 2015 119(22). p.5642
Triplet–triplet annihilation photon-upconversion: towards solar energy applications
Gray Victor,
Dzebo Damir,
Abrahamsson Maria,
Albinsson Bo, Moth-Poulsen Kasper
Phys. Chem. Chem. Phys.. 2014 16(22). p.10345
Increased upconversion performance for thin film solar cells: a trimolecular composition
Cheng Yuen Yap,
Nattestad Andrew,
Schulze Tim F.,
MacQueen Rowan W.,
Fückel Burkhard,
Lips Klaus,
Wallace Gordon G.,
Khoury Tony,
Crossley Maxwell J., Schmidt Timothy W.
Chemical Science. 2016 7(1). p.559
Photochemical upconversion of near-infrared light from below the silicon bandgap
Gholizadeh Elham M.,
Prasad Shyamal K. K.,
Teh Zhi Li,
Ishwara Thilini,
Norman Sarah,
Petty Anthony J.,
Cole Jared H.,
Cheong Soshan,
Tilley Richard D.,
Anthony John E.,
Huang Shujuan, Schmidt Timothy W.
Nature Photonics. 2020 14(9). p.585
Efficiency of Noncoherent Photon Upconversion by Triplet–Triplet Annihilation: The C60 Plus Anthanthrene System and the Importance of Tuning the Triplet Energies
Sugunan Sunish K.,
Greenwald Chelsea,
Paige Matthew F., Steer Ronald P.
The Journal of Physical Chemistry A. 2013 117(26). p.5419
Nanocrystal Size and Quantum Yield in the Upconversion of Green to Violet Light with CdSe and Anthracene Derivatives
Huang Zhiyuan,
Li Xin,
Yip Benjamin D.,
Rubalcava Justin M.,
Bardeen Christopher J., Tang Ming L.
Chemistry of Materials. 2015 27(21). p.7503
Efficiency Limit of Molecular Solar Thermal Energy Collecting Devices
Börjesson Karl,
Lennartson Anders, Moth-Poulsen Kasper
ACS Sustainable Chemistry & Engineering. 2013 1(6). p.585
Efficiency Enhancement of Organic and Thin-Film Silicon Solar Cells with Photochemical Upconversion
Schulze Tim F.,
Czolk Jens,
Cheng Yuen-Yap,
Fückel Burkhard,
MacQueen Rowan W.,
Khoury Tony,
Crossley Maxwell J.,
Stannowski Bernd,
Lips Klaus,
Lemmer Uli,
Colsmann Alexander, Schmidt Timothy W.
The Journal of Physical Chemistry C. 2012 116(43). p.22794
Efficient Visible to Near-UV Photochemical Upconversion Sensitized by a Long Lifetime Cu(I) MLCT Complex
McCusker Catherine E., Castellano Felix N.
Inorganic Chemistry. 2015 54(12). p.6035
Enhancing Solar Cell Efficiency Using Photon Upconversion Materials
Shang Yunfei,
Hao Shuwei,
Yang Chunhui, Chen Guanying
Nanomaterials. 2015 5(4). p.1782
Triplet–Triplet Annihilation Upconversion in Broadly Absorbing Layered Film Systems for Sub-Bandgap Photocatalysis
Hagstrom Anna L.,
Weon Seunghyun,
Choi Wonyong, Kim Jae-Hong
ACS Applied Materials & Interfaces. 2019 11(14). p.13304
Highly-efficient NIR sensitization of palladiumphthalocyanine with peripheral σ-π conjugation effect
Huang Suqin,
Ye Changqing,
Chen Shuoran,
Liang Zuoqin,
Zhou Yuyang, Wang Xiaomei
Journal of Luminescence. 2021 230 p.117709
Recent advances in triplet–triplet annihilation upconversion and singlet fission, towards solar energy applications
Carrod Andrew J.,
Gray Victor, Börjesson Karl
Energy & Environmental Science. 2022 15(12). p.4982
A critical review on the efficiency improvement of upconversion assisted solar cells
Khare Ayush
Journal of Alloys and Compounds. 2020 821 p.153214
On the Quantum Yield of Photon Upconversion via Triplet–Triplet Annihilation
Zhou Yan,
Castellano Felix N.,
Schmidt Timothy W., Hanson Kenneth
ACS Energy Letters. 2020 5(7). p.2322
Highly efficient photochemical upconversion in a quasi-solid organogel
Sripathy Kabilan,
MacQueen Rowan W.,
Peterson Joshua R.,
Cheng Yuen Yap,
Dvořák Miroslav,
McCamey Dane R.,
Treat Neil D.,
Stingelin Natalie, Schmidt Timothy W.
Journal of Materials Chemistry C. 2015 3(3). p.616
Flexible and Micropatternable Triplet–Triplet Annihilation Upconversion Thin Films for Photonic Device Integration and Anticounterfeiting Applications
Hagstrom Anna L.,
Lee Hak-Lae,
Lee Myung-Soo,
Choe Hyun-Seok,
Jung Joori,
Park Byung-Geon,
Han Won-Sik,
Ko Jong-Soo,
Kim Jae-Hong, Kim Jae-Hyuk
ACS Applied Materials & Interfaces. 2018 10(10). p.8985
Photochemical upconversion: present status and prospects for its application to solar energy conversion
Schulze Tim F., Schmidt Timothy W.
Energy & Environmental Science. 2015 8(1). p.103
Including Actinides (2014)
Loss channels in triplet–triplet annihilation photon upconversion: importance of annihilator singlet and triplet surface shapes
Gray Victor,
Dreos Ambra,
Erhart Paul,
Albinsson Bo,
Moth-Poulsen Kasper, Abrahamsson Maria
Physical Chemistry Chemical Physics. 2017 19(17). p.10931
Homomolecular non-coherent photon upconversion by triplet–triplet annihilation using a zinc porphyrin on wide bandgap semiconductors
Giri Neeraj Kumar,
Ponce Concepcion P.,
Steer Ronald P., Paige Matthew F.
Chemical Physics Letters. 2014 598 p.17
Triplet–triplet annihilation mediated photon upconversion solar energy systems
Naimovičius Lukas,
Bharmoria Pankaj, Moth-Poulsen Kasper
Materials Chemistry Frontiers. 2023 7(12). p.2297
Harnessing molecular photon upconversion at sub-solar irradiance using dual sensitized self-assembled trilayers
Dilbeck Tristan,
Hill Sean P., Hanson Kenneth
Journal of Materials Chemistry A. 2017 5(23). p.11652
Emerging Strategies to Reduce Transmission and Thermalization Losses in Solar Cells (2022)
Elucidating the Energy- and Electron-Transfer Dynamics of Photon Upconversion in Self-Assembled Bilayers
Dilbeck Tristan,
Wang Jamie C.,
Zhou Yan,
Olsson Andrew,
Sykora Milan, Hanson Kenneth
The Journal of Physical Chemistry C. 2017 121(36). p.19690
A new medium for triplet–triplet annihilated upconversion and photocatalytic application
Ye Changqing,
Wang Jingjing,
Wang Xiaomei,
Ding Ping,
Liang Zuoqin, Tao Xutang
Physical Chemistry Chemical Physics. 2016 18(5). p.3430
Application of Triplet–Triplet Annihilation Upconversion in Organic Optoelectronic Devices: Advances and Perspectives
Gao Can,
Wong Wallace W. H.,
Qin Zhengsheng,
Lo Shih‐Chun,
Namdas Ebinazar B.,
Dong Huanli, Hu Wenping
Advanced Materials. 2021 33(45).
Photochemical Upconversion Applied to Organic and Thin Film Silicon Solar Cells
Renewable Energy and the Environment Optics and Photonics Congress (2012)
Photon Upconversion and Photocurrent Generation via Self-Assembly at Organic–Inorganic Interfaces
Hill Sean P.,
Banerjee Tanmay,
Dilbeck Tristan, Hanson Kenneth
The Journal of Physical Chemistry Letters. 2015 6(22). p.4510
Photochemical Upconversion: The Primacy of Kinetics
Schmidt Timothy W., Castellano Felix N.
The Journal of Physical Chemistry Letters. 2014 5(22). p.4062
Photophysical characterization of the 9,10-disubstituted anthracene chromophore and its applications in triplet–triplet annihilation photon upconversion
Gray Victor,
Dzebo Damir,
Lundin Angelica,
Alborzpour Jonathan,
Abrahamsson Maria,
Albinsson Bo, Moth-Poulsen Kasper
Journal of Materials Chemistry C. 2015 3(42). p.11111
Triplet‐triplet Annihilation Dynamics of Naphthalene
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Chemistry – A European Journal. 2022 28(40).
