Binary and ternary bulk heterjunction solar cells with alternative donor-to-acceptor ratios

Yin, Hang

14 August 2017

Bulk heterojunction (BHJ) organic photovoltaic (OPV) is one of the most promising techniques to generate electricity with advantages of flexibility, solution processing and capability for large area device fabrication. Although the power conversion efficiency (PCE) of BHJ solar cells has already achieved over 13%, there are still problems remain to be solved. This thesis presents the binary and ternary organic BHJ devices with alternative donor:acceptor (D:A) ratios, and the charge transport properties and electronic interactions in their BHJ films. In a high performance BHJ solar cell, the commonly optimized D:A weight ratio is about 1:x, where x is commonly in excess of 1.5, when PC71BM is used as the acceptor. We demonstrated how to achieve high PCEs of BHJ solar cells by enriching the D:A weight ratios. The PCEs of the re-optimized cells were improved for the PTB7:PC71BM, PCDTBT:PC71BM, PDTSTPD:PC71BM devices. Current-voltage (JV) and admittance spectroscopy (AS) measurements indicate enhanced hole mobilities for the polymer-rich BHJs based on PTB7, PCDTBT, and PDTSTPD. At the same time, although the relative weight ratio of PC71BM is reduced, the electron mobilities are maintained due to the dispersion of fullerene domains by increased DIO concentrations. The active layer thickness of most optimized BHJ solar cells is about 100nm. The thin active layer is unfavorable for optical absorption and film coating. We employed a ternary strategy to address this problem, and the thick-film BHJ devices can retain 90% PCEs of their optimized thin-film devices. Three model systems were studied, involving PTB7:PC71BM, PTB7-Th:PC71BM and P3HT:PCBM BHJs. Into these BHJs, a ternary component, p-DTS(fbtth2)2 (DTS) is introduced. With DTS, the corresponding thick film devices have significantly improved PCEs. The ternary component DTS improves hole mobility and reduces sub-bandgap trap states. Both observations are well correlated with improved FFs of the ternary BHJ cells. Photothermal deflection spectroscopy (PDS) and 1H nuclear magnetic resonance (1H NMR) results indicate that DTS behaves as conducting bridges in between two neighboring polymer segments. Most lab-based BHJ solar cells are optimized by their power conversion efficiencies (PCEs). We challenge this conventional view by showing that BHJ cells using fullerene acceptors should be optimized by their fill-factors (FFs). With the optimized-FF approach, BHJ cells tend to have higher fullerene content when compared to the BHJ cells that are optimized by PCEs. The FF-optimized BHJ cells have slightly reduced PCEs (due to smaller Jscs) compared to the PCE-optimized cells. Yet, FF-optimized cells enjoy a much better thermal stability. We demonstrate that these FF-optimized BHJs possess better-balanced electron-to-hole mobility ratios due to weakly field-dependent electron mobilities. The improved mobility ratio suppresses carrier recombination. Our results suggest that BHJ cells optimized by their PCEs should be meta-stable, and other D:A ratios should be considered for practical BHJ cell development.

Study of transparent conducting ZnO/ZnO:Al layer, front grid contact, for photovoltaic cells and ruthenium sulfide photoanode for photoelectrochemical cells

Patil, Harshad Pandharinath

01 October 2003

No description available.

Photoelectric cells; Photovoltaic cells

Engineering

Identification and characterization of tumorigenic liver cancer stem/progenitor cells

Ma, Kwai-yee, Stephanie., 馬桂宜.

January 2007

Li Ka Shing Prizes for best PhD theses in the Faculties of Dentistry, Engineering, Medicine and Science, 2006-2007 / published_or_final_version / abstract / Pathology / Doctoral / Doctor of Philosophy

Stem cells.

Liver cells.

Liver - Cancer.

Cancer cells.

Fetal germ cell differentiation and the impact of the somatic cells

Cowan, Gillian

January 2009

Specification of a germ cell lineage and appropriate maturation are essential for the transfer of genetic information from one generation to the next. Germ cells form from pluripotent precursor cells that migrate into the gonadal ridge and undergo commitment to either the female or male lineage. In the fetal ovary, germ cells enter meiotic prophase I, then arrest at the diplotene stage; in the testis germ cells do not begin meiosis until puberty. Abnormal differentiation of germ cells can result in malignant transformation. Somatic cells play a key role in modulating the developmental fate of the germ cells. Research into germ cell development during fetal life has almost exclusively focused on studies in rodents, but we, and others, have reported several fundamental differences in the expression of germ cell specific markers in the human compared with the mouse. The studies described in this thesis have investigated germ cell-specific gene expression and the possible impact of the somatic cells during development. This was achieved by studying human fetal gonads obtained during the 1st and 2nd trimesters of pregnancy and through the use of both wild-type and mutant mouse ES cell lines. Studies on germ cells in the human fetal testis have extended the findings of others, and confirmed that germ cell populations at different stages of maturation co-exist in the human fetal testis, a situation that is in contrast to that in rodents. For example expression of M2A and AP2γ was restricted to the OCT4-positive gonocyte population, while VASA and NANOS1 were localised exclusively to the to the OCT4-negative prespermatogonia. DAZL was expressed in both populations. Analysis also revealed that both the gonocyte and prespermatogonial populations proliferate throughout the 2nd trimester. Recent studies have implicated retinoic acid (RA) in the control of meiotic entry in germ cells of the fetal mouse ovary. In this study we demonstrated for the first time that two genes implicated in the action of RA in mouse gonad, STRA8 and NANOS2, are also expressed in a similar sexspecific- manner in the human fetal gonads, and that the RA receptors are present in both somatic and germ cells suggesting that RA may regulate germ cell function in the human as well as the mouse. However, whilst the mesonephros appears to be the primary site of RA synthesis in the mouse our initial studies indicate that in the human the gonad itself may be a more likely site of RA biosynthesis. In the fetal mouse testis, RA is degraded by the enzyme Cyp26b1 present in the somatic cells and germ cells do not enter meiosis, our novel findings suggest that CYP26B1 is more abundant in the human fetal ovary than the testis, suggesting that meiotic entry may be controlled by an alternative signalling pathway in the human. One of the methods that can aid our understanding of somatic cell gene expression in the gonad is in vitro culture. To date, there have been no published reports of the successful in vitro culture of somatic cells from the human fetal testis. In the current study, populations of human somatic cells were dissociated and maintained in vitro and characterised. Analysis demonstrated that cells expressing mRNAs characteristic of Sertoli cells, Leydig cells and peritubular myoid (PTM) cells were present initially, but long-term culture resulted in downregulation in expression of mRNAs specific for Sertoli cells and Leydig cells, suggesting that these cells either failed to survive or underwent alterations to their phenotype. In contrast PTM/fibroblast cells proliferated in vitro and initially maintained androgen receptor expression. These cultures therefore hold promise for studies into the signalling or cell-cell interactions in testicular somatic cells especially those relevant to the PTM population. Several studies have claimed differentiation of putative germ cells from ES cells. In the current study, analysis of mouse ES cell lines has expanded on results showing that ES cells and early germ cells express a number of genes in common. Kit signalling was shown to be important for ES cell survival as they differentiate although expression of Kit was heterogeneous. We also demonstrated that ES cells that did not express Kit displayed a decreased expression of the early germ cell genes Blimp1, Fragilis and Stella, implicating Kit signalling in the control of germ cell-associated gene expression in ES cells. This may be important to future studies optimising germ cell derivation from ES cells. In conclusion, this study has demonstrated important differences in protein expression patterns in germ cells of the human fetal testis compared to the mouse, and has raised questions about whether the proposed mechanism controlling meiotic entry of germ cells in the mouse can be applied to the human. The establishment of a system for culturing human fetal gonadal somatic cells may lead to further understanding of gene expression and development in the human fetal testis, and data suggest that the Kit/Kitl signalling system may influence germ cell gene expression in mouse ES cells.

612.6

Characterisation and pharmacological studies on mast cells culture from human blood. / CUHK electronic theses & dissertations collection

January 2004

Wang Xiansong. / "February 2004." / Thesis (Ph.D.)--Chinese University of Hong Kong, 2004. / Includes bibliographical references (p. 247-285). / Electronic reproduction. Hong Kong : Chinese University of Hong Kong, [2012] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Mode of access: World Wide Web. / Abstracts in English and Chinese.

Mast cells

Mast Cells--physiology

Mast Cells--drug effects

Signals required for the induction of antigen-based therapeutic tolerance

Konkel, Joanne Elizabeth

January 2009

Despite the actions of central tolerance during thymic selection, it is clear that the peripheral T cell repertoire contains significant numbers of self-reactive T cells. The immune system needs to curtail the risk of autoimmune disease by controlling the activity of these self-reactive T cells. Various mechanisms are in place to achieve this control (peripheral tolerance). Activation of CD4+ T cells requires two signals; engagement of the T cell receptor (TCR) with an appropriate peptide:MHC complex (signal 1), and the aggregate effect of multiple signals generated following ligation of costimulatory and coinhibitory molecules (signal 2). Both signals are required for the generation of a productive T cell response and both are provided by the professional antigen presenting cell, the dendritic cell (DC). T cells are fully activated upon receiving both signal 1 and 2, but are rendered tolerant when they receive only signal 1. This can be exploited therapeutically through the administration of peptides to induce tolerance in peptidereactive T cells. Administration of peptide with an adjuvant provides both signal 1 and 2, and leads to a sustained T cell response against the administered peptide (immunity). However, if the same peptide is administered in soluble form, only signal 1 is provided, leading to the establishment of T cell tolerance. The studies in this thesis explore the role of both signal 1 and signal 2 in peptide-induced T cell tolerance. Previous data from our laboratory have highlighted PD-1 and RANKL as costimulatory molecules which could play a role in peptide-induced T cell tolerance. Here we show that PD-1, an important coinhibitory molecule, plays a vital role in restraining peripheral T cell expansion under conditions leading to T cell immunity. However, in contrast to data from other studies, we demonstrate that PD-1 plays no role in the induction, establishment or maintenance of peptide-induced T cell tolerance. We show that the costimulatory receptor ligand pair RANK:RANKL plays a role in the balance between T cell tolerance and immunity; as administration of anti-RANKL was seen to potentiate both tolerance and immunity. We also explored the effect of altering the affinity of a peptide for MHC on the induction of peptide tolerance. We demonstrate that use of a peptide with a high-affinity for MHC induces tolerance via a novel, non-deletional mechanism of peptide-tolerance induction. Importantly, we show that the high-affinity peptide can form peptide- MHC complexes which persist in a biologically relevant form for fourteen days following peptide administration. We suggest that this leads to chronic stimulation of peptide-reactive T cells which promotes acquisition of a novel tolerant phenotype. Collectively the work described in this thesis demonstrates the important roles both signal 1 and 2 play in therapeutic-tolerance induction and how the qualitative and quantitative alteration of these signals can alter T cell fate and/or responsiveness.

571.96

A role for the transmembrane domain in the trimerization of the MHC class II-associated invariant chain /

Ashman, Jonathan B.

January 1999

Thesis (Ph. D.)--University of Chicago, Committee on Immunology, June 1999. / Includes bibliographical references. Also available on the Internet.

Analyzing the effects of laquinimod on innate and adaptive immunity in mice with experimental autoimmune encephalomyelitis

Ott, Martina

07 May 2014

No description available.

Laquinimod

T cells

Dendritic cells

Natural killer cells

A study of some actions of growth-promoting peptides on skeletal cells

Soul, Jean H.

January 1984

No description available.

572

Towards feeder-free and serum-free growth of cells

Richards, Sean Dennis

January 2007

The in-vitro culture of human embryonic stem and keratinocyte cells has great potential to revolutionise the therapeutics industry. Indeed it is hoped that these cells will provide a superior alternative to current tissue and organ transplantation. However, both of these cell types require animal and/or donor products for their successful maintenance in-vitro. This requirement results in a significant risk of cross contamination from the animal or donor products to either the primary keratinocyte or hES cells. These potentially transplantable cells therefore need to be cultured in an environment free from animal or donor products to remove the risk of contamination to the patient. The ideal growth conditions must comprise of two attributes; firstly they must be free from animal or donor products, and secondly the culture system must be fully defined. Recently, it was discovered that an extra-cellular matrix protein, vitronectin, could be used in conjunction with growth factors and growth factor-binding proteins (VN:GF combination), to promote enhanced cell migration and growth through the co-activation of integrin and growth factor receptors. Given that growth factors and serum are clearly important in supporting the in-vitro cultivation of mammalian cells, and that vitronectin is an abundant protein in serum, I hypothesised that these VN:GF combinations could be translated into a serum-free medium that would support the serial propagation and self renewal of primary keratinocytes and hES cells. As reported in this thesis I have developed a defined, serum-free media for the culture of these cells that incorporates the VN:GF combinations. While the two media differ slightly in their compositions, both support the serial, undifferentiated expansion of their respective cells types. Together, this represents a significant advance that will ultimately facilitate the therapeutic use of these cells. However, the in-vitro expansion of these cells in these new media still required the presence of a feeder cell layer. In view of this I aimed to explore the in-vitro micro-environment of primary keratinocytes using a novel proteomic approach in an attempt to find candidate factors that could be used in conjunction with the VN:GF media to replace both serum and the feeder cells. The proteomic approach adopted examined the secretion of proteins into the defined, minimal protein content VN:GF media when the feeder cells were cultured alone, as well as in co-culture with primary keratinocytes. This strategy allowed assessment of proteins/factors that are secreted in response to both autocrine and paracrine cellular interactions and revealed a number of candidate factors that warrant further investigation. Ultimately this proteomic information and the associated new insights into the keratinocyte in-vitro culture microenvironment may lead to the development of a culture system for these cells that is not reliant on either a feeder cell layer or serum for their successful propagation. Moreover, it is likely that this will also be relevant to the feeder cell-free propagation of hES cells. This has obvious advantages for the culture of primary keratinocytes and hES cells in that it will allow a safe defined culture system for the undifferentiated propagation of these cells. This will facilitate the generation of cells and tissues free from xenogeneic and allogeneic contaminants, thus ensuring any therapeutics developed from these cell types are approved for therapeutic applications and importantly, will minimise risks to patients.

embryonic stem cells

keratinocyte cells

hES cells

extra-cellular matrix