Journal of Materials Chemistry Blog

Mimicking biomineralization offers a route for the formation of new materials and structures. In this Feature Article Alexander Böker and co-workers review the materials and processes inspired by synthetic biomineralization. They also explore the tools and bio-inspired systems for the development of new synthetic materials and compare the original biological function of the protein to its role in the non-natural process. Read the Feature Article for free until 16th Jan:

Synthetic inorganic materials by mimicking biomineralization processes using native and non-native protein functions: Alexander Schulz, Huihui Wang, Patrick van Rijn and Alexander Böker, J. Mater. Chem., 2011, 21, 18903-18918

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Dendritic complexes for white polymer light-emitting diodes. Chinese scientists have fabricated single-layer white polymer light-emitting devices (WPLED) by double-doping sky-blue emitter iridium(III) bis(2-(4,6-difluorophenyl)-pyridinato-N,C2)picolinate (FIrpic) into orange iridium dendrimers. These WPLEDs achieve the maximum current/power/external quantum efficiencies of 37.0 cd A−1/19.4 lm W−1/18.5%, which are among the highest efficiencies for dual-color WPLEDs ever reported.  

Highly efficient single-layer white polymer light-emitting devices employing triphenylamine-based iridium dendritic complexes as orange emissive component: Minrong Zhu, Jianhua Zou, Sujun Hu, Chen’ge Li, Chuluo Yang, Hongbin Wu, Jingui Qin and Yong Cao, J. Mater. Chem., 2012, 22, 361-366

Stacking-induced phosphorescence from organic radical materials. A new class of organic phosphorescent materials have been developed by scientists at University of Science and Technology of China. Based on salts of an organic radical material, the phosphorescent complexes show stacking-induced white-light and blue-light phosphorescence. The team say that these materials could lead to new LEDs.

Stacking-induced white-light and blue-light phosphorescence from purely organic radical materials: Guo-Ping Yong, Yi-Man Zhang, Wen-Long She and Ying-Zhou Li, J. Mater. Chem., 2011, 21, 18520-18522

Read both of the papers for free until 12th January (free registration required).

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Researchers at University of Science & Technology of China have made prototype robots from a soft actuator. The robots are capable of gripping objects or worm-like movement, and are controlled by infrared light. The material used to create the robot is ultrasensitive photothermal actuator made from large-area graphene with chitosan and polyethylene. Read the paper for free until 9th January.

Large-area graphene realizing ultrasensitive photothermal actuator with high transparency: new prototype robotic motions under infrared-light stimuli: Changzheng Wu, Jun Feng, Lele Peng, Yong Ni, Haiyi Liang, Linhui He and Yi Xie, J. Mater. Chem., 2011, 21, 18584-18591

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The reversible physisorption of hydrogen on porous solid state materials offers one method for storing hydrogen; however, scientists are still searching for ways to maximise the surface area and thereby increase the storage capacity.

In an effort to address this problem a microporous carbon material with an unusually high hydrogen storage capacity has been created by scientists at the University of Nottingham, UK. The material is synthesised using a commercially available zeolitic imidazolate framework as a hard template. The pores of the ZIF are filled with furfuryl alcohol before polymerization and then carbonization to remove the template and leave behind a microporous carbon material. In a final step the carbon is then activated with KOH, which leads to a significant enlargement of surface area.

The microporous nature gives the material a high hydrogen storage density in the range 13.0–15.5 μmol H2 m⁻², which the team say is much higher than most high surface area activated carbons.

Read the article for free until 4^th January

Preparation and hydrogen storage capacity of templated and activated carbons nanocast from commercially available zeolitic imidazolate framework: A. Almasoudi and R. Mokaya, J. Mater. Chem., 2012, 22, 146-152

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Hydrolysis of polysaccharides in unused biomass offers a sustainable method to produce glucose and other chemicals derived from it. In an effort to make the process more commercially viable scientists at Qingdao Institute of Bioenergy and Bioprocess Technology, China, have designed and synthesized efficient catalysts for the hydrolysis of starch and cellulose based on copolymers of poly(acrylic acid) and poly(styrene sulfonic acid). The random copolymer PAA-r-PSSH gave the highest glucose yield among the prepared catalysts which the team attribute to the synergic effect of the SO3H and COOH groups in the polymer chain.

Read the article for free until 30^th December (free registration required):

Xiutao Li, Yijun Jiang, Li Shuai, Lili Wang, Lingqian Meng and Xindong Mu, J. Mater. Chem., 2012, DOI: 10.1039/C1JM12954F (Advance Article)

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Researchers studying new two-photon absorption chromophores based on spirofluorene and ladder-type pentaphenylenes have investigated the effect of structure on two-photon absorption efficiency.

The team say that spirofluorenes with different donors at the both terminals show an increase in two-photon absorption activity as the donor strength increases. The ladder-type pentaphenylenes derivatives show the larger two-photon absorption efficiency than spirofluorene derivatives due to better coplanarity throughout the molecule. Interested to know more? Read the full article for free

Namchul Cho, Gang Zhou, Kenji Kamada, Ran Hee Kim, Koji Ohta, Sung-Ho Jin, Klaus Müllen and Kwang-Sup Lee, J. Mater. Chem., 2012, DOI: 10.1039/C1JM13481G (Advance Article)

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Oxygen evolution reactions are used in a wide range of electrochemical processes such chlorine evolution, electroplating, peroxide production, and generating hydrogen from water via electrolysis. However, the high overpotentials required in the oxygen evolution reactions reduce the energy efficiency of the electrochemical processes.

Now researchers at National Tsing-Hua University, Taiwan, have developed highly efficient electrocatalysts based on nickel cobaltite aerogels. These aerogels have an ultralow overpotential of 0.184 V at 100 mA cm−2 for oxygen evolution. The ultralow overpotential is thought to arise from the high specific surface area and well-connected three-dimensional through-pore structure of the aerogel materials.

Interested to know more? Read the article for free until 21^st December 2011:
Hsing-Chi Chien, Wei-Yun Cheng, Yong-Hui Wang, Te-Yu Wei and Shih-Yuan Lu, J. Mater. Chem., 2011, 21, 18180-18182

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Scientists at the Karlsruhe Institute of Technology, Germany, have made the first reversible working battery based on a fluoride shuttle.

In the battery the fluoride anion acts as charge transfer ion between a metal/metal fluoride pair. Electrons are generated at the anode in redox reaction. These electrons travel through the external circuit to recombine with the cathode material and reduce metal fluoride to metal. The released fluoride anions leave the cathode, migrate through the electrolyte and react with metal of the anode to form metal fluoride. The process can be reversed during charging. Interested to know more? Read the article for free until 20^th December…

M. Anji Reddy and M. Fichtner, J. Mater. Chem., 2011, 21, 17059-17062

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Japanese scientists have synthesised a molecule (1,3,6,8-tetramethylpyrene; TMPY) with a similar shape to the luminescent material perylene. The team grew co-crystals with perylene and demonstrated effective energy transfer with a luminescence efficiency of 78%. This host–guest system is a good method to fabricate the light-emitting field effect transistor devices, and to investigate organic semiconductor laser performance the team say.

Jinpeng Li, Shinya Takaishi, Naohiro Fujinuma, Katsutoshi Endo, Masahiro Yamashita, Hiroyuki Matsuzaki, Hiroshi Okamoto, Kosuke Sawabe, Taishi Takenobu and Yoshihiro Iwasa, J. Mater. Chem., 2011, 21, 17662-17666

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Au@Pd bimetallic nanoparticles were successfully dispersed on graphene by a simple one step reducing method.

The bimetallic nanoparticles show superior catalytic activity over the monometallic counterparts. Including the Au core minimizes the use of more expensive Pd precursors and plays an important role in enhancing the catalytic activity arising from the strong catalytic bimetallic electronic ligand interactions. The composition and shell thickness of the nanoparticles is controlled by loading different amounts of the metallic precursors. Interested to know more? Read the article for free until 16th December…

Graphene supported Au-Pd bimetallic nanoparticles with core-shell structures and superior peroxidase-like activities: Hongyu Chen, Yang Li, Fengbao Zhang, Guoliang Zhang and Xiaobin Fan, J. Mater. Chem., 2011, 21, 17658-17661

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