SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4386592619> ?p ?o ?g. }

Showing items 1 to 100 of ±155 with 100 items per page.

W4386592619 endingPage "43844" @default.
W4386592619 startingPage "43835" @default.
W4386592619 abstract "Despite significant progress in device performance, dye-sensitized solar cells (DSSCs) continue to fall short of their theoretical potential. Moreover, research in recent years needs to pay more attention to improving the device fabrication process. To achieve the theoretical efficiency limit, it is crucial to optimize the interface between the dye and TiO2 nanoparticles in the entire device stack. Our study indicates that optimizing the structure or size of the coadsorbents and implementing a monolayer adsorption process can be an effective strategy to reduce charge recombination and enhance light-harvesting properties. Our research aims to develop a surface-coating adsorbent plan that controls the TiO2 nanoparticle interface to achieve the radiative limit of power conversion efficiency (PCE). Specifically, we utilized 2-thiophenecarboxylic acid (THCA) or chenodeoxycholic acid (CDCA) as postinterfacial surface-coating adsorbents. Our results demonstrate that this approach effectively achieves the desired PCE limit. Combined with the coadsorbent structure engineering and interface optimization, the device increased the packing area on the TiO2 nanoparticles' surface, reaching an improved PCE of over 13.17% under simulated sunlight (1.5G), which is the highest efficiency of a porphyrin single dye-based DSSC. In particular, this practical approach was also applied to a large-area DSSC with an area of 3 cm2, yielding a remarkable PCE of 9.04%. Furthermore, when applied to a polymer gel electrolyte, this novel approach recorded the highest PCE of 11.16% with a long-term operational stability of up to 1000 h for the quasi-solid-state DSSCs. Our research findings provide a promising avenue for achieving high-performance DSSCs with ease of access and demonstrate practical applications as alternatives to conventional power sources." @default.
W4386592619 created "2023-09-12" @default.
W4386592619 creator A5011184705 @default.
W4386592619 creator A5018880490 @default.
W4386592619 creator A5021284354 @default.
W4386592619 creator A5027638396 @default.
W4386592619 creator A5033752054 @default.
W4386592619 creator A5037496959 @default.
W4386592619 creator A5049110679 @default.
W4386592619 creator A5089504310 @default.
W4386592619 date "2023-09-11" @default.
W4386592619 modified "2023-10-06" @default.
W4386592619 title "Synergistic Effect of Size-Tailored Structural Engineering and Postinterface Modification for Highly Efficient and Stable Dye-Sensitized Solar Cells" @default.
W4386592619 cites W1768967549 @default.
W4386592619 cites W1931574415 @default.
W4386592619 cites W1966685351 @default.
W4386592619 cites W1980216394 @default.
W4386592619 cites W1992679438 @default.
W4386592619 cites W1994007193 @default.
W4386592619 cites W1995826950 @default.
W4386592619 cites W2012394813 @default.
W4386592619 cites W2012951565 @default.
W4386592619 cites W2012987447 @default.
W4386592619 cites W2013035034 @default.
W4386592619 cites W2023037074 @default.
W4386592619 cites W2023831556 @default.
W4386592619 cites W2041236618 @default.
W4386592619 cites W2043857858 @default.
W4386592619 cites W2047094107 @default.
W4386592619 cites W2077485798 @default.
W4386592619 cites W2081049288 @default.
W4386592619 cites W2095062688 @default.
W4386592619 cites W2106824077 @default.
W4386592619 cites W2116327492 @default.
W4386592619 cites W2120517672 @default.
W4386592619 cites W2128372544 @default.
W4386592619 cites W2136545558 @default.
W4386592619 cites W2147035509 @default.
W4386592619 cites W2301258434 @default.
W4386592619 cites W2430357844 @default.
W4386592619 cites W2560462528 @default.
W4386592619 cites W2561637541 @default.
W4386592619 cites W2567784893 @default.
W4386592619 cites W2568681242 @default.
W4386592619 cites W2600574737 @default.
W4386592619 cites W2610918469 @default.
W4386592619 cites W2752436037 @default.
W4386592619 cites W2783275003 @default.
W4386592619 cites W2799857457 @default.
W4386592619 cites W2801693439 @default.
W4386592619 cites W2810463166 @default.
W4386592619 cites W2904713670 @default.
W4386592619 cites W2904827742 @default.
W4386592619 cites W2906676372 @default.
W4386592619 cites W2945113644 @default.
W4386592619 cites W2948087044 @default.
W4386592619 cites W2949664934 @default.
W4386592619 cites W2987824470 @default.
W4386592619 cites W2996599985 @default.
W4386592619 cites W3008224312 @default.
W4386592619 cites W3008469669 @default.
W4386592619 cites W3049726533 @default.
W4386592619 cites W3102981304 @default.
W4386592619 cites W3112351327 @default.
W4386592619 cites W3117470845 @default.
W4386592619 cites W3136597176 @default.
W4386592619 cites W3147985272 @default.
W4386592619 cites W3217456722 @default.
W4386592619 cites W4200605935 @default.
W4386592619 cites W4210854590 @default.
W4386592619 cites W4220924727 @default.
W4386592619 cites W4280507477 @default.
W4386592619 cites W4281478466 @default.
W4386592619 cites W4285388003 @default.
W4386592619 cites W4286214502 @default.
W4386592619 cites W4307425928 @default.
W4386592619 cites W4308834997 @default.
W4386592619 cites W4311652492 @default.
W4386592619 cites W4319299286 @default.
W4386592619 cites W4360604738 @default.
W4386592619 cites W4362475707 @default.
W4386592619 cites W4362676223 @default.
W4386592619 doi "https://doi.org/10.1021/acsami.3c09228" @default.
W4386592619 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/37695216" @default.
W4386592619 hasPublicationYear "2023" @default.
W4386592619 type Work @default.
W4386592619 citedByCount "0" @default.
W4386592619 crossrefType "journal-article" @default.
W4386592619 hasAuthorship W4386592619A5011184705 @default.
W4386592619 hasAuthorship W4386592619A5018880490 @default.
W4386592619 hasAuthorship W4386592619A5021284354 @default.
W4386592619 hasAuthorship W4386592619A5027638396 @default.
W4386592619 hasAuthorship W4386592619A5033752054 @default.
W4386592619 hasAuthorship W4386592619A5037496959 @default.
W4386592619 hasAuthorship W4386592619A5049110679 @default.
W4386592619 hasAuthorship W4386592619A5089504310 @default.
W4386592619 hasConcept C127413603 @default.
W4386592619 hasConcept C147789679 @default.