21 research outputs found
High-efficiency fullerene solar cells enabled by a spontaneously formed mesostructured CuSCN-nanowire heterointerface
Fullerenes and their derivatives are widely used as electron acceptors in bulk-heterojunction organic solar cells as they combine high electron mobility with good solubility and miscibility with relevant semiconducting polymers. However, studies on the use of fullerenes as the sole photogeneration and charge-carrier material are scarce. Here, a new type of solution-processed small-molecule solar cell based on the two most commonly used methanofullerenes, namely [6,6]-phenyl-C61-butyric acid methyl ester (PC 60 BM) and [6,6]-phenyl-C71-butyric acid methyl ester (PC 70 BM), as the light absorbing materials, is reported. First, it is shown that both fullerene derivatives exhibit excellent ambipolar charge transport with balanced hole and electron mobilities. When the two derivatives are spin-coated over the wide bandgap p-type semiconductor copper (I) thiocyanate (CuSCN), cells with power conversion efficiency (PCE) of ā1%, are obtained. Blending the CuSCN with PC 70 BM is shown to increase the performance further yielding cells with an open-circuit voltage of ā0.93 V and a PCE of 5.4%. Microstructural analysis reveals that the key to this success is the spontaneous formation of a unique mesostructured p-n-like heterointerface between CuSCN and PC 70 BM. The findings pave the way to an exciting new class of single photoactive material based solar cells
Student interpretations of the terms in first-order ordinary differential equations in modelling contexts
A study of first-year undergraduate studentsā² interpretational difficulties with first-order ordinary differential equations (ODEs) in modelling contexts was conducted using a diagnostic quiz, exam questions and follow-up interviews. These investigations indicate that when thinking about such ODEs, many students muddle thinking about the function that gives the quantity to be determined and the equation for the quantity's rate of change, and at least some seem unaware of the need for unit consistency in the terms of an ODE. It appears that shifting from amount-type thinking to rates-of-change-type thinking is difficult for many students. Suggestions for pedagogical change based on our results are made
On the generalised Ritt problem as a computational problem
The Ritt problem asks if there is an algorithm that tells whether one prime
differential ideal is contained in another one if both are given by their
characteristic sets. We give several equivalent formulations of this problem.
In particular, we show that it is equivalent to testing if a differential
polynomial is a zero divisor modulo a radical differential ideal. The technique
used in the proof of equivalence yields algorithms for computing a canonical
decomposition of a radical differential ideal into prime components and a
canonical generating set of a radical differential ideal. Both proposed
representations of a radical differential ideal are independent of the given
set of generators and can be made independent of the ranking.Comment: 9 page
Emissive charge-transfer states at hybrid inorganic/organic heterojunctions enable low non-radiative recombination and high-performance photodetectors
Hybrid devices based on a heterojunction between inorganic and organic semiconductors have offered a means to combine the advantages of both classes of materials in optoelectronic devices, but, in practice, the performance of such devices has often been disappointing. Here, it is demonstrated that charge generation in hybrid inorganicāorganic heterojunctions consisting of copper thiocyanate (CuSCN) and a variety of molecular acceptors (ITIC, IT-4F, Y6, PC70BM, C70, C60) proceeds via emissive charge-transfer (CT) states analogous to those found at all-organic heterojunctions. Importantly, contrary to what has been observed at previous organicāinorganic heterojunctions, the dissociation of the CT-exciton and subsequent charge separation is efficient, allowing the fabrication of planar photovoltaic devices with very low non-radiative voltage losses (0.21 Ā± ā
0.02 V). It is shown that such low non-radiative recombination enables the fabrication of simple and cost-effective near-IR (NIR) detectors with extremely low dark current (4 pA cmā2) and noise spectral density (3 fA Hzā1/2) at no external bias, leading to specific detectivities at NIR wavelengths of just under 1013 Jones, close to the performance of commercial silicon photodetectors. It is believed that this work demonstrates the possibility for hybrid heterojunctions to exploit the unique properties of both inorganic and organic semiconductors for high-performance opto-electronic devices
Palladium(II)-catalyzed othro-C-H-benzoxylation of 2-arylpyridines by oxidative coupling with aryl acylperoxides
2012-2013 > Academic research: refereed > Publication in refereed journalVersion of RecordPublishe
Common errors of using Chinese words among junior secondary students
It is important to identify the Problem of errors of using Chinese words (in Chinese 'cuobiezi'). Its relevance with students' language competence is clear. In China, researches deal with simplified characters. (in Chinese 'jiantizi') and the contributions aims for āstandardisation of wordsā. This paper deals with errors of using original characters (in Chinese 'fantizi') of junior secondary students. The multiple methods have been employed to investigate the relationship between the frequency of errors and the language competence of students. The results showed that (1) the frequency of errors of using Chinese words reflects the language competence of students; and (2) different reasons attribute to the errors of Chinese words. This paper finally suggests that we should (1) change the 'word count' method in marking Chinese compositions; (2) collect the errors of using Chinese words; (3) encourage students to enlarge their vocabulary and to use more words in their compositions; (4) teach 'ci' instead of 'zi'.link_to_OA_fulltex