TY  - JOUR
A1  - Li, Wentao
A1  - Abrecht, Steve
A1  - Yang, Liqiang
A1  - Roland, Steffen
A1  - Tumbleston, John R.
A1  - McAfee, Terry
A1  - Yan, Liang
A1  - Kelly, Mary Allison
A1  - Ade, Harald W.
A1  - Neher, Dieter
A1  - You, Wei
T1  - Mobility-controlled performance of thick solar cells based on fluorinated copolymers
JF  - Journal of the American Chemical Society
N2  - Developing novel materials and device architectures to further enhance the efficiency of polymer solar cells requires a fundamental understanding of the impact of chemical structures on photovoltaic properties. Given that device characteristics depend on many parameters, deriving structureproperty relationships has been very challenging. Here we report that a single parameter, hole mobility, determines the fill factor of several hundred nanometer thick bulk heterojunction photovoltaic devices based on a series of copolymers with varying amount of fluorine substitution. We attribute the steady increase of hole mobility with fluorine content to changes in polymer molecular ordering. Importantly, all other parameters, including the efficiency of free charge generation and the coefficient of nongeminate recombination, are nearly identical. Our work emphasizes the need to achieve high mobility in combination with strongly suppressed charge recombination for the thick devices required by mass production technologies.
Y1  - 2014
U6  - https://doi.org/10.1021/ja5067724
SN  - 0002-7863
VL  - 136
IS  - 44
SP  - 15566
EP  - 15576
PB  - American Chemical Society
CY  - Washington
ER  - 
TY  - JOUR
A1  - Shalom, Menny
A1  - Guttentag, Miguel
A1  - Fettkenhauer, Christian
A1  - Inal, Sahika
A1  - Neher, Dieter
A1  - Llobet, Antoni
A1  - Antonietti, Markus
T1  - In situ formation of heterojunctions in modified graphitic carbon nitride: synthesis and noble metal free photocatalysis
JF  - Chemistry of materials : a publication of the American Chemical Society
N2  - Herein, we report the facile synthesis of an efficient roll-like carbon nitride (C3N4) photocatalyst for hydrogen production using a supramolecular complex composed of cyanuric acid, melamine, and barbituric acid as the starting monomers. Optical and photocatalytic investigations show, along with the known red shift of absorption into the visible region, that the insertion of barbituric acid results in the in situ formation of in-plane heterojuctions, which enhance the charge separation process under illumination. Moreover, platinum as the standard cocatalyst in photocatalysis could be successfully replaced with first row transition metal salts and complexes under retention of 50% of the catalytic activity. Their mode of deposition and interaction with the semiconductor was studied in detail. Utilization of the supramolecular approach opens new opportunities to manipulate the charge transfer process within carbon nitride with respect to the design of a more efficient carbon nitride photocatalyst with controlled morphology and optical properties.
Y1  - 2014
U6  - https://doi.org/10.1021/cm503258z
SN  - 0897-4756
SN  - 1520-5002
VL  - 26
IS  - 19
SP  - 5812
EP  - 5818
PB  - American Chemical Society
CY  - Washington
ER  - 
TY  - JOUR
A1  - Xu, Jingsan
A1  - Brenner, Thomas J. K.
A1  - Chabanne, Laurent
A1  - Neher, Dieter
A1  - Antonietti, Markus
A1  - Shalom, Menny
T1  - Liquid-Based growth of polymeric carbon nitride layers and their use in a mesostructured polymer solar cell with V-oc exceeding 1 V
JF  - Journal of the American Chemical Society
N2  - Herein we report a general liquid-mediated pathway for the growth of continuous polymeric carbon nitride (C3N4) thin films. The deposition method consists of the use of supramolecular complexes that transform to the liquid state before direct thermal condensation into C3N4 solid films. The resulting films exhibit continuous porous C3N4 networks on various substrates. Moreover, the optical absorption can be easily tuned to cover the solar spectrum by the insertion of an additional molecule into the starting complex. The strength of the deposition method is demonstrated by the use of the C3N4 layer as the electron acceptor in a polymer solar cell that exhibits a remarkable open-circuit voltage exceeding 1 V. The easy, safe, and direct synthesis of carbon nitride in a continuous layered architecture on different functional substrates opens new possibilities for the fabrication of many energy-related devices.
Y1  - 2014
U6  - https://doi.org/10.1021/ja508329c
SN  - 0002-7863
VL  - 136
IS  - 39
SP  - 13486
EP  - 13489
PB  - American Chemical Society
CY  - Washington
ER  - 
TY  - JOUR
A1  - Xu, Jingsan
A1  - Brenner, Thomas J. K.
A1  - Chen, Zupeng
A1  - Neher, Dieter
A1  - Antonietti, Markus
A1  - Shalom, Menny
T1  - Upconversion-agent induced improvement of g-C3N4 photocatalyst under visible light
JF  - ACS applied materials & interfaces
N2  - Herein, we report the use of upconversion agents to modify graphite carbon nitride (g-C3N4) by direct thermal condensation of a mixture of ErCl3 center dot 6H(2)O and the supramolecular precursor cyanuric acid-melamine. We show the enhancement of g-C3N4 photoactivity after Er3+ doping by monitoring the photodegradation of Rhodamine B dye under visible light. The contribution of the upconversion agent is demonstrated by measurements using only a red laser. The Er3+ doping alters both the electronic and the chemical properties of g-C3N4. The Er3+ doping reduces emission intensity and lifetime, indicating the formation of new, nonradiative deactivation pathways, probably involving charge-transfer processes.
KW  - metal-free photocatalysis
KW  - upconversion
KW  - carbon nitride
KW  - RhB photodegradation
Y1  - 2014
U6  - https://doi.org/10.1021/am5051263
SN  - 1944-8244
VL  - 6
IS  - 19
SP  - 16481
EP  - 16486
PB  - American Chemical Society
CY  - Washington
ER  - 
TY  - JOUR
A1  - Proctor, Christopher M.
A1  - Albrecht, Steve
A1  - Kuik, Martijn
A1  - Neher, Dieter
A1  - Thuc-Quyen Nguyen, 
T1  - Overcoming geminate recombination and enhancing extraction in solution-processed small molecule solar cells
JF  - dvanced energy materials
Y1  - 2014
U6  - https://doi.org/10.1002/aenm.201400230
SN  - 1614-6832
SN  - 1614-6840
VL  - 4
IS  - 10
PB  - Wiley-VCH
CY  - Weinheim
ER  - 
TY  - JOUR
A1  - Kraffert, Felix
A1  - Steyrleuthner, Robert
A1  - Albrecht, Steve
A1  - Neher, Dieter
A1  - Scharber, Markus C.
A1  - Bittl, Robert
A1  - Behrends, Jan
T1  - Charge Separation in PCPDTBT : PCBM Blends from an EPR Perspective
JF  - The journal of physical chemistry
Y1  - 2014
U6  - https://doi.org/10.1021/jp509650v
SN  - 1932-7447
VL  - 118
IS  - 49
SP  - 28482
EP  - 28493
PB  - American Chemical Society
CY  - Washington
ER  - 
TY  - JOUR
A1  - Liu, W.
A1  - Tkachov, R.
A1  - Komber, H.
A1  - Senkovskyy, V.
A1  - Schubert, M.
A1  - Wei, Z.
A1  - Facchetti, A.
A1  - Neher, Dieter
A1  - Kiriy, A.
T1  - Chain-growth polycondensation of perylene diimide-based copolymers: a new route to regio-regular perylene diimide-based acceptors for all-polymer solar cells and n-type transistors
JF  - Polymer Chemistry
N2  - Herein, we report the chain-growth tin-free room temperature polymerization method to synthesize n-type perylene diimide-dithiophene-based conjugated polymers (PPDIT2s) suitable for solar cell and transistor applications. The palladium/electron-rich tri-tert-butylphosphine catalyst is effective to enable the chain-growth polymerization of anion-radical monomer Br-TPDIT-Br/Zn to PPDIT2 with a molecular weight up to M-w approximate to 50 kg mol(-1) and moderate polydispersity. This is the second example of the polymerization of unusual anion-radical aromatic complexes formed in a reaction of active Zn and electron-deficient diimide-based aryl halides. As such, the discovered polymerization method is not a specific reactivity feature of the naphthalene-diimide derivatives but is rather a general polymerization tool. This is an important finding, given the significantly higher maximum external quantum efficiency that can be reached with PDI-based copolymers (32-45%) in all-polymer solar cells compared to NDI-based materials (15-30%). Our studies revealed that PPDIT2 synthesized by the new method and the previously published polymer prepared by step-growth Stille polycondensation show similar electron mobility and all-polymer solar cell performance. At the same time, the polymerization reported herein has several technological advantages as it proceeds relatively fast at room temperature and does not involve toxic tin-based compounds. Because several chain-growth polymerization reactions are well-suited for the preparation of well-defined multi-functional polymer architectures, the next target is to explore the utility of the discovered polymerization in the synthesis of end-functionalized polymers and block copolymers. Such materials would be helpful to improve the nanoscale morphology of polymer blends in all-polymer solar cells.
Y1  - 2014
U6  - https://doi.org/10.1039/c3py01707a
SN  - 1759-9954
SN  - 1759-9962
VL  - 5
IS  - 10
SP  - 3404
EP  - 3411
PB  - Royal Society of Chemistry
CY  - Cambridge
ER  - 
TY  - JOUR
A1  - Inal, Sahika
A1  - Kölsch, Jonas D.
A1  - Sellrie, Frank
A1  - Schenk, Jörg A.
A1  - Wischerhoff, Erik
A1  - Laschewsky, André
A1  - Neher, Dieter
T1  - A water soluble fluorescent polymer as a dual colour sensor for temperature and a specific protein
JF  - Journal of materials chemistry : B, Materials for biology and medicine
N2  - We present two thermoresponsive water soluble copolymers prepared via free radical statistical copolymerization of N-isopropylacrylamide (NIPAm) and of oligo(ethylene glycol) methacrylates (OEGMAs), respectively, with a solvatochromic 7-(diethylamino)-3-carboxy-coumarin (DEAC)-functionalized monomer. In aqueous solutions, the NIPAm-based copolymer exhibits characteristic changes in its fluorescence profile in response to a change in solution temperature as well as to the presence of a specific protein, namely an anti-DEAC antibody. This polymer emits only weakly at low temperatures, but exhibits a marked fluorescence enhancement accompanied by a change in its emission colour when heated above its cloud point. Such drastic changes in the fluorescence and absorbance spectra are observed also upon injection of the anti-DEAC antibody, attributed to the specific binding of the antibody to DEAC moieties. Importantly, protein binding occurs exclusively when the polymer is in the well hydrated state below the cloud point, enabling a temperature control on the molecular recognition event. On the other hand, heating of the polymer-antibody complexes releases a fraction of the bound antibody. In the presence of the DEAC-functionalized monomer in this mixture, the released antibody competitively binds to the monomer and the antibody-free chains of the polymer undergo a more effective collapse and inter-aggregation. In contrast, the emission properties of the OEGMA-based analogous copolymer are rather insensitive to the thermally induced phase transition or to antibody binding. These opposite behaviours underline the need for a carefully tailored molecular design of responsive polymers aimed at specific applications, such as biosensing.
Y1  - 2013
U6  - https://doi.org/10.1039/c3tb21245a
SN  - 2050-750X
SN  - 2050-7518
VL  - 1
IS  - 46
SP  - 6373
EP  - 6381
PB  - Royal Society of Chemistry
CY  - Cambridge
ER  - 
TY  - JOUR
A1  - Proctor, Christopher M.
A1  - Kim, Chunki
A1  - Neher, Dieter
A1  - Thuc-Quyen Nguyen, 
T1  - Nongeminate recombination and charge transport limitations in diketopyrrolopyrrole-based solution-processed small molecule solar cells
JF  - Advanced functional materials
N2  - Charge transport and nongeminate recombination are investigated in two solution-processed small molecule bulk heterojunction solar cells consisting of diketopyrrolopyrrole (DPP)-based donor molecules, mono-DPP and bis-DPP, blended with [6,6]-phenyl-C71-butyric acid methyl ester (PCBM). While the bis-DPP system exhibits a high fill factor (62%) the mono-DPP system suffers from pronounced voltage dependent losses, which limit both the fill factor (46%) and short circuit current. A method to determine the average charge carrier density, recombination current, and effective carrier lifetime in operating solar cells as a function of applied bias is demonstrated. These results and light intensity measurements of the current-voltage characteristics indicate that the mono-DPP system is severely limited by nongeminate recombination losses. Further analysis reveals that the most significant factor leading to the difference in fill factor is the comparatively poor hole transport properties in the mono-DPP system (2 x 10(-5) cm(2) V-1 s(-1) versus 34 x 10(-5) cm(2) V-1 s(-1)). These results suggest that future design of donor molecules for organic photovoltaics should aim to increase charge carrier mobility thereby enabling faster sweep out of charge carriers before they are lost to nongeminate recombination.
KW  - charge transport
KW  - solar cells
KW  - photovoltaic devices
KW  - organic electronics
KW  - characterization tools
Y1  - 2013
U6  - https://doi.org/10.1002/adfm.201202643
SN  - 1616-301X
SN  - 1616-3028
VL  - 23
IS  - 28
SP  - 3584
EP  - 3594
PB  - Wiley-VCH
CY  - Weinheim
ER  - 
TY  - JOUR
A1  - Li, Hongguang
A1  - Babu, Sukumaran Santhosh
A1  - Turner, Sarah T.
A1  - Neher, Dieter
A1  - Hollamby, Martin J.
A1  - Seki, Tomohiro
A1  - Yagai, Shiki
A1  - Deguchi, Yonekazu
A1  - Möhwald, Helmuth
A1  - Nakanishi, Takashi
T1  - Alkylated-C-60 based soft materials regulation of self-assembly and optoelectronic properties by chain branching
JF  - Journal of materials chemistry : C, Materials for optical and electronic devices
N2  - Derivatization of fullerene (C-60) with branched aliphatic chains softens C-60-based materials and enables the formation of thermotropic liquid crystals and room temperature nonvolatile liquids. This work demonstrates that by carefully tuning parameters such as type, number and substituent position of the branched chains, liquid crystalline C-60 materials with mesophase temperatures suited for photovoltaic cell fabrication and room temperature nonvolatile liquid fullerenes with tunable viscosity can be obtained. In particular, compound 1, with branched chains, exhibits a smectic liquid crystalline phase extending from 84 degrees C to room temperature. Analysis of bulk heterojunction (BHJ) organic solar cells with a ca. 100 nm active layer of compound 1 and poly(3-hexylthiophene) (P3HT) as an electron acceptor and an electron donor, respectively, reveals an improved performance (power conversion efficiency, PCE: 1.6 + 0.1%) in comparison with another compound, 10 (PCE: 0.5 + 0.1%). The latter, in contrast to 1, carries linear aliphatic chains and thus forms a highly ordered solid lamellar phase at room temperature. The solar cell performance of 1 blended with P3HT approaches that of PCBM/P3HT for the same active layer thickness. This indicates that C-60 derivatives bearing branched tails are a promising class of electron acceptors in soft (flexible) photovoltaic devices.
Y1  - 2013
U6  - https://doi.org/10.1039/c3tc00066d
SN  - 2050-7526
VL  - 1
IS  - 10
SP  - 1943
EP  - 1951
PB  - Royal Society of Chemistry
CY  - Cambridge
ER  -