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Current
Organic Chemistry
ISSN: 1385-2728
Current Organic
Chemistry
Volume 11, Number 14, September 2007
Contents
Organic Functional Materials Applying to Optoelectronics
Guest Editor: Ruzhou Zhang
Editorial Pp. 1206
Polyfluorene Polyelectrolytes and Their Precursors
Processable from Environment-Friendly Solvents (Alcohol or
Water) for PLED Applications Pp. 1207-1219
Fei Huang, Hongbin Wu, Junbiao Peng, Wei Yang and Yong
Cao
[Abstract]
Polycyclic Aromatic Compounds for Organic Field-effect
Transistors: Molecular Design and Syntheses Pp. 1220-1240
Jishan Wu
[Abstract]
Organic D-π-A
Dyes for Dye-Sensitized Solar Cell Pp. 1241-1258
Zhigang Chen, Fuyou Li and Chunhui Huang
[Abstract]
Molecular Structure Analysis of Photochromic Diarylethene
Pp. 1259-1271
Bingzhi Chen
[Abstract]
Molecular Engineering of Ruthenium Sensitizers in
Dye-Sensitized Solar Cells Pp. 1272-1286
Puhui Xie and Fengqi Guo
[Abstract]
Abstracts
[Back to top]
Editorial
The present issue of Current Organic Chemistry is
devoted to organic functional materials with special emphasis
on material design, synthesis and relationship between structure-application
performance. The authors provide us an up-to-date discussion
on the special application area, such as PLED, OFET, DSSCs
and photochromism.
Polyfluorene-based conjugated polyelectrolytes (CPs) exhibit
excellent unique characteristics different from the traditional
conjugated polymers used in PLEDs, which is extensively reviewed
by Prof. Yong Cao et. al. at South China University
of Technology. The review was focusing on the design, synthesis
of the material and their application in PLEDs.
And then, Dr. Wan, from California University at Los Angeles
show us recent progress on molecular design and synthesis
of polycyclic aromatic compounds, such as oligoarenes, oligoacenes,
TTF derivatives and disc-like polycyclic aromatic hydrocarbons,
for Organic Field-effect Transistors (OFET).
Dye-sensitized solar cells (DSSCs) have attracted considerable
attention in both academic and industrial community as a cost-effective
alternative to conventional solar cells. Development of both
metal-free organic dye and metal-ligand complexes for DSSCs
have reached great achievements on device performance. Both
kinds of materials applying to DSSCs are summarized by Prof.
Li et al, from Fudan University and Prof. Guo et
al, from Zhengzhou University, respectively and showing
us what has been going on in the field.
Due to potential photonic applications, photochromism is another
hot point in the community. Diarylethene has been studied
extensively. Dr. Chen at General Electric summarized the progress
on design, synthesis and its photochromic performance of diarylethenes.
Ruzhou Zhang
DESANO R&D center
Shanghai Desano Pharmaceuticals Holding Co., Ltd.
Zhangrz_1999@yahoo.com
[Back to top]
Polyfluorene Polyelectrolytes and Their Precursors
Processable from Environment-Friendly Solvents (Alcohol or
Water) for PLED Applications
Fei Huang, Hongbin Wu, Junbiao Peng, Wei Yang
and Yong Cao
Conjugated Polyelectrolytes (CPs) have been successfully
used as highly sensitive materials in chemo and biosensors
for many years. But in general CPs were not very successful
as a light emitting layer in polymer light-emitting diodes
(PLEDs). Until recently, it was found that polyfluorene-based
CPs and their precursors showed excellent unique characteristics
different from the traditional conjugated polymers as light-emitting
materials. In this review we summarize recent work on the
design, synthesis of polyfluorene-based CPs and their precursors
and their successful use in PLEDs.
[Back to top]
Polycyclic Aromatic Compounds for Organic Field-effect
Transistors: Molecular Design and Syntheses
Jishan Wu
This review is focused on current state of materials
design and syntheses of organic semiconductors for thin-film
field effect transistors (FETs). Recently, high performance
p- or n-type organic FETs with high charge carrier mobility,
high ON-OFF current ratios and high stability have been achieved
due to the improvement of materials syntheses. Intrinsic electronic
properties, solid-state packing, stability, and the capability
of easy processing are the main issues of molecular design
of these semiconductors. Various polycyclic aromatic compounds
such as oligoarenes, oligoacenes, tetra-thiafulvalenes and
disc-like polycyclic aromatic hydrocarbons are qualified as
good candidates for FETs after accurate chemical tailoring.
We will give an overview of most recent progress in the materials
synthesis and the consequential device properties.
[Back to top]
Organic D-π-A
Dyes for Dye-Sensitized Solar Cell
Zhigang Chen, Fuyou Li and Chunhui Huang
Dye-sensitized solar cells (DSSCs) have received
considerable attentions as a cost-effective alternative to
conventional solar cells. One of main issues for the development
of DSSCs is the design and synthesis of dyes that serve as
light absorbers for energy conversion. Up to now, many different
pure organic dyes and transition metal complexes have been
evaluated as sensitizers. DSSCs sensitized with pure organic
dyes have relatively lower power conversion efficiencies than
those sensitized with metal complexes. However, pure organic
dyes have many advantages for their application in DSSCs,
such as lower cost, higher absorption coefficient and easy
control of redox potentials of LUMO and HOMO levels. Importantly,
the highest power conversion efficiency of DSSCs with pure
organic dyes has reached 8.0%, which is close to that (~10%)
of DSSCs with metal complexes. In this paper, the features
of pure organic dyes and several ways for the design towards
higher efficiency are presented. The recent progress on the
selection and utilization of these pure organic dyes, especially
organic D-π-A
dyes, are mainly discussed. The effects of the structures
of organic D-π-A
dyes on cell performances are compared.
[Back to top]
Molecular Structure Analysis of Photochromic Diarylethene
Bingzhi Chen
Photochromic diarylethene have received considerable
attention because of their potential photonic applications.
All of these applications come from the fact that when stimulated
with light at appropriate wavelengths, the physical and chemical
properties can be reversibly modulated. During the last decade,
more and more decoration on the general structures of diarylethene
and novel skeletons beyond the general structures have been
developed from many motivation aspects, such as seeking for
facile synthetic routes, the ability to tailor the physical
and chemical properties in flexible manner and etc. This article
describes recent novel development of molecular structure
design strategies of diarylethene.
[Back to top]
Molecular Engineering of Ruthenium Sensitizers in
Dye-Sensitized Solar Cells
Puhui Xie and Fengqi Guo
Dye sensitized solar cells (DSSCs) have great potential
to challenge the traditional silicon-based semiconductor solar
cells in the photovoltaic (PV) market because of their low
cost and medium efficiency. This type of solar cell has achieved
an impressive photo-to-energy conversion efficiency of over
10%. In a dye sensitized solar cell, the charge separation
is initiated at the adsorbed dye, which was bound at the interface
of an inorganic semiconductor film and a hole transport material.
The dye is the key component in such cells. In order to optimize
the performance of such devices, it is important to design
suitable dyes with tunable spectroscopic and electrochemical
properties. Careful modification of the structures of the
sensitizers can improve light harvesting in the visible and
near-IR region with high optical extinction coefficients and
enhance the performance of the devices. It’s necessary
to optimize the properties of the dye in conjunction with
other factors in order to best exploit and be fully compatible
with other cell modifications in the development of cheap
and efficient photovoltaic systems. In this review, current
strategies for the molecular engineering of the dyes based
on ruthenium complexes possessing different functionalized
ligands are discussed.
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