S. S. Sharma scite author profile

Dye-sensitized solar cells (DSSCs) belong to the group of thin-film solar cells which have been under extensive research for more than two decades due to their low cost, simple preparation methodology, low toxicity and ease of production. Still, there is lot of scope for the replacement of current DSSC materials due to their high cost, less abundance, and long-term stability. The efficiency of existing DSSCs reaches up to 12%, using Ru(II) dyes by optimizing material and structural properties which is still less than the efficiency offered by first- and second-generation solar cells, i.e., other thin-film solar cells and Si-based solar cells which offer ~ 20–30% efficiency. This article provides an in-depth review on DSSC construction, operating principle, key problems (low efficiency, low scalability, and low stability), prospective efficient materials, and finally a brief insight to commercialization.

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A Simple and Effective Modification of PCBM for Use as an Electron Acceptor in Efficient Bulk Heterojunction Solar Cells

Mikroyannidis

Kabanakis

Sharma

et al. 2010

Adv Funct Materials

150

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[6,6]‐phenyl‐C‐61‐butyric acid methyl ester (PCBM) and poly(3‐hexylthiophene) (P3HT) are the most widely used acceptor and donor materials, respectively, in polymer solar cells (PSCs). However, the low LUMO (lowest unoccupied molecular orbital) energy level of PCBM limits the open circuit voltage (Voc) of the PSCs based on P3HT. Herein a simple, low‐cost and effective approach of modifying PCBM and improving its absorption is reported which can be extended to all fullerene derivatives with an ester structure. In particular, PCBM is hydrolyzed to carboxylic acid and then converted to the corresponding carbonyl chloride. The latter is condensed with 4‐nitro‐4’‐hydroxy‐α‐cyanostilbene to afford the modified fullerene F. It is more soluble than PCBM in common organic solvents due to the increase of the organic moiety. Both solutions and thin films of F show stronger absorption than PCBM in the range of 250–900 nm. The electrochemical properties and electronic energy levels of F and PCBM are measured by cyclic voltammetry. The LUMO energy level of F is 0.25 eV higher than that of PCBM. The PSCs based on P3HT with F as an acceptor shows a higher Voc of 0.86 V and a short circuit current (Jsc) of 8.5 mA cm−2, resulting in a power conversion efficiency (PCE) of 4.23%, while the PSC based on P3HT:PCBM shows a PCE of about 2.93% under the same conditions. The results indicate that the modified PCBM, i.e., F, is an excellent acceptor for PSC based on bulk heterojunction active layers. A maximum overall PCE of 5.25% is achieved with the PSC based on the P3HT:F blend deposited from a mixture of solvents (chloroform/acetone) and subsequent thermal annealing at 120 °C.

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An efficient in vitro procedure for micropropagation and generation of somaclones of rose scented Pelargonium

et al. 2000

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Inhibition of pyrimidine de novo synthesis by DUP-785 (NSC 368390)

et al. 1987

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The mechanism of action of NSC 368390 (DUP-785, 6-fluoro-2-(2'-fluoro-1, 1'-biphenyl-4-yl)-3-methyl-4-quinoline carboxylic acid sodium salt) was studied using three different approaches. First, we studied growth inhibition by DUP-785 in L1210 leukemia cells and M5 melanoma cells. The concentrations causing 50% growth inhibition after 48 hr of culture were 5.8 and 0.6 microM, respectively. DUP-785 had to be present continuously throughout culture. Growth inhibition by 25 microM DUP-785 could be prevented by addition of 1 mM uridine or orotic acid to cultures of these cell lines; in M5 cells cytidine was also able to prevent growth inhibition. Dihydro-orotic acid (DHO) and carbamyl-aspartate were not able to prevent growth inhibition by DUP-785. Second, we studied accumulation of orotic acid and of orotidine induced by incubation with 1 microM pyrazofurin, an inhibitor of the orotate phosphoribosyl-transferase-orotidine-monophosphate decarboxylase complex. Addition of DUP-785 to the culture medium prevented the orotic acid accumulation. Furthermore, DUP-785 prevented accumulation of H14CO3- into orotic acid of pyrazofurin-treated L1210 cells. Third, we measured the effect of DUP-785 on DHO-dehydrogenase (DHO-DH), since the results indicated that this enzyme was affected by DUP-785. DHO-DH was assayed in isolated rat liver mitochondria. The Km for L-DHO was about 12 microM. DUP-785 appeared to be a potent inhibitor of DHO-DH with an apparent Ki of about 0.1 microM and an apparent Ki' of about 0.8 microM. The mode of inhibition appeared to be linear mixed type. After exposure of L1210 cells to 25 microM DUP-785 for 2 hr DHO-DH was almost completely inhibited. After suspension in fresh medium without drug, DHO-DH activity was recovered to about 60% after 24 hr. In conclusion, DUP-785 is a potent inhibitor of pyrimidine de novo biosynthesis, by inhibition of the mitochondrial enzyme DHO-DH.

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Improved power conversion efficiency of bulk heterojunction poly(3-hexylthiophene):PCBM photovoltaic devices using small molecule additive

Sharma¹,

Sharma

Mikroyannidis

2011

Solar Energy Materials and Solar Cells

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S. S. Sharma

Dye-Sensitized Solar Cells: Fundamentals and Current Status

A Simple and Effective Modification of PCBM for Use as an Electron Acceptor in Efficient Bulk Heterojunction Solar Cells

An efficient in vitro procedure for micropropagation and generation of somaclones of rose scented Pelargonium

Inhibition of pyrimidine de novo synthesis by DUP-785 (NSC 368390)

Improved power conversion efficiency of bulk heterojunction poly(3-hexylthiophene):PCBM photovoltaic devices using small molecule additive

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