Author Archive

Journal of Materials Chemistry A, B and C Review articles

We are constantly working to improve our procedures to benefit our journal authors. In light of this, from issue 1s 2015, Feature Articles will be published as Review articles in Journal of Materials Chemistry A, B and C. Reviews will replace Feature Articles as the principle review-type article in the Journal of Materials Chemistry family of journals. All newly submitted Review articles this year will be published with a 2015 publication date.

We believe that this will further improve the discoverability and searchability of these articles for our authors and readers.

For more information, Journal of Materials Chemistry A, B and C article guidelines can be found below:

Journal of Materials Chemistry A article guidelines
Journal of Materials Chemistry B article guidelines
Journal of Materials Chemistry C article guidelines

When will I see a change?
This change has taken affect from now and is applicable for all new Review article submissions. Feature Articles currently under review or accepted and going through production will be published as Feature Articles with a 2014 publication date.

Further questions?
Please contact the Editorial Office at materials-rsc@rsc.org.

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Call for Papers: Themed Issue on Perovskite Solar Cells

Journal of Materials Chemistry A is planning to produce a themed issue on Perovskite Solar Cells in 2015. Please e-mail the Editorial Office at materialsA-rsc@rsc.org if you are interested in contributing an article. The Guest Editors for this issue are Zhiqun Lin (Georgia Institute of Technology, USA), Gang Li (University of California, Los Angeles, USA) and Nam-Gyu Park (Sungkyunkwan University, South Korea).

This themed issue aims to cover the most recent progress in the synthesis, preparation, characterization, and mechanistic studies of perovskite-based solar cells, to highlight the new development in synthesis, engineering, and application of perovskites.  Our aim is to highlight the remarkable contributions made by the leading scientists in this important research area and the broad impact of perovskite solar cells.

PLEASE NOTE THAT THE SUBMISSIONS DEADLINE HAS NOW PASSED

Manuscripts can be submitted using the RSC’s online article submission service. Please clearly state that the manuscript is submitted in response to the call for papers for the themed issue on Perovskite Solar Cells.

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An Interview with Professor Makoto Nakamura

An Interview with Professor Makoto Nakamura

If you’re interested in the fascinating new field of bioprinting and biofabrication, you won’t want to miss the keynote presentation by University of Toyama’s Professor Makoto Nakamura. His presentation, The Concepts of the Challenges for the Developments of Bioprinting and Biofabrication, will examine the innovative printing techniques that are now being used in tissue engineering. In today’s blog, he shares some of the points he will cover in his keynote speech.

The inaugural International Bioprinting Congress will take place at the Biopolis, Singapore on 24-25 July 2014. The event will present the leading international scientists and thought leaders within the rapidly developing field of 3D bioprinting.

SELECTBIO: What are some of the challenges you’re finding in your research on bioprinting and biofabrication?

Nakamura: Our team has ever pursued several challenges on tissue engineering, towards the final goal of engineering biological artificial organs which can be used for clinical therapy for disease patients. Our challenges concerning to bioprinting and biofabrication are as follows.

First, we ask how can we position or assemble living cells directly onto arbitrary positions. Specifically, we’re examining high resolution as biological histology; respect cell-type onto respect cell positions; both 2D and 3D space, especially together with inner compositions; and, high speed positioning or fabrication.

Second, we ask what kind of machines or technologies are feasible to produce biological tissues and organs. Within this area, we find many advantages in printing technology, which forms the beginning of our research on bioprinting. Third, we ask how we can make effective perfusion systems such as capillary vessels in the fabricated large 3D tissues.

And, finally, we examine recent challenges such as searching suitable biomaterials for biofabrication and version-up of our 3D bioprinter. However, producing biological tissues–especially alternatives for transplantation- is not easy. Therefore many challenges must be addressed until our final goal can be achieved.

SELECTBIO: What are some of the limitations of mechanical artificial organs that biofabricated artificial organs resolve?

Nakamura: Mechanical artificial organs have contributed to saving many patients indeed, so I think they are necessary and they still need further development. I’d like to emphasize that it is important to understand that the research on mechanical artificial organs is very necessary. However, there are still no cues to compensate metabolic functions of biological cells and tissues by mechanical artificial organs, such as energy generation in vivo, hormone generation and detoxification in vivo. Therefore, energy must be transferred almost continuously from outside of the body for an artificial heart, while a dialysis patient must be connected to a machine that dilutes waters in the case of an artificial kidney. In addition, artificial organs never grow up along with children when they grow up. My hope is to develop a pediatric artificial heart to address one of the more serious problems in mechanical arti ficial organs.

SELECTBIO: Your research has involved the heart; is this really an organ that can be biofabricated?

Nakamura: Of course, I think so, but it is in future. Although it is indeed a very difficult theme, I believe it can be achieved through science and technology some day.

SELECTBIO: You have been closely involved with the International Society For Biofabrication (ISBF) as an inaugural board member. What are the goals of the ISBF?

Nakamura: As far as I understand, the goal of ISBF is as follows:

1. The most important purpose of ISBF is to promote the research and development of biofabrication worldwide. However, why is such biofabrication research necessary? The most essential point of fabricating biological products is to fabricate and produce human tissues and organs to contribute to the development of the medicine, not only basic but also clinical medicine. This is essentially the same as tissue engineering. Therefore, ISBF aims at this final goal.

2. To achieve this, interaction or collaboration with different disciplines in other different fields is necessary, because biofabrication is a new approach. Hence, ISBF actively searches for synergies with other fields.

3. In addition, application of biofabricated products to basic and clinical medicine, and all of the life science areas, is important, as well as interaction and collaboration. Moreover, industry is also important, because basic technologies must be connected to industrial applications to produce practical products. While a non-profit organization, ISBF nevertheless promotes interactions for contributing to biofabrication applications.

4. ISBF is an academic society. Therefore, ISBF is active in the education of young scientists and students.

These are not the official position of the ISBF, but my understanding as a member of ISBF.

SELECTBIO: What do you consider your greatest success in this field?

Nakamura: My great success? It is difficult to evaluate my works by myself! I have proposed that printing technologies are a promising avenue to develop 3D tissue engineering by showing 3D bioprinting using an inkjet technique. Although other researchers are also working on bioprinting solutions, our works on bioprinting and biofabrication have influenced many Japanese engineers and researchers to work in the field of printing technologies, MEMS technologies and mechatronics technologies, as well as regenerative medicine.

SELECTBIO: How do you envision bioprinting and biofabrication evolving in the future?

Nakamura: I hope and believe that the time when human tissues and organs can be produced by computer-aided machine technologies and process engineering will come some day.

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International BIOPRINTING Congress

This congress presents the leading international scientists within the rapidly developing field of bioprinting.  The Chair of the School of Mechanical and Aerospace Engineering, Nanyang Technological University, Professor Chua Chee Kai, Director Nanyang Additive Manufacturing Centre, Singapore and Professor Makoto Nakamura, Graduate School of Science and Engineering for Research, University of Toyama, Japan are the conference chairs for this event.

This congree will provide attendees with a detailed insight into the latest developments and techniques in bioprinting covering additive manufacturing of tissues and biofabrication, scaffolds and biomaterials for tissue engineering, biological laser printing, biological inkjet printing, search for the synergy by fusion of bio-additive manufacturing and micro manufacturing, cell and tissue patterning for lab-on-a-chip and tissue models plus additive manufacturing and medical devices from the keynote speakers, Professor Chua Chee Kai, Nanygang Technological University and Professor Makoto Nakamura, The University of Toyama.

Register here  to attend this congress.  Deadline for poster submission is the 3rd of July.

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MACRO 2015

The 2015 International Conference on Polymer Science and Technology is a biannual international symposia held in India under The Society of Polymer Science India  and offers a unique opportunity for the international as well as national researchers working on the diverse areas of polymer science and technology to share and discuss the recent developments in:

  • Polymer synthesis
  • Polymer blends and composites
  • Supramolecular polymers and self assembly
  • Conducting polymers
  • Polymers in energy applications and sensors
  • Sustainable polymers and biological applications
  • Polymeric nanomaterials
  • Elastomers and rubbers

This meeting will comprise of several plenary sessions, key note lectures and talks by leading polymer scientists from around the globe and an opportunity for graduates and post doctoral researchers to participate in an extensive poster presentation session.

The meeting will be running from the 23rd – 26th January 2015 with registration opening in July 2014.

For more information please visit www.macro2015.org or via email.

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ISMC-2014

The  5th  Interdisciplinary  Symposium  on  Materials  Chemistry (ISMC–2014), is jointly organised by the  Society  for  Materials  Chemistry  (SMC)  and the Chemistry Division, Bhabha Atomic Research Centre (BARC), Trombay, Mumbai, India, during December 9th-13th, 2014.  The symposium is supported by the Board of Research in Nuclear Sciences (BRNS) and the Department of Atomic Energy (DAE). This Symposium will focus on contemporary  research in the field of  materials  chemistry. 

 The deliberations of the symposium  will  cover the following topics:

•  Nuclear materials
•  High purity materials
•  Nanomaterials and clusters
•  Carbon based materials
•  Fuel cell materials and other electro-ceramics
•  Biomaterials
•  Polymers and soft condensed matter
•  Materials for energy conversion
•  Thin films and surface chemistry
•  Magnetic materials
•  Catalysis
•  Chemical sensors
•  Organic and organometallic compounds
•  Computational material chemistry

Researchers working in the above mentioned areas are encouraged to participate in ISMC-2014.

Important Dates:

Last date for submission of papers     : August 20, 2014
Acceptance of papers                              : September 30, 2014
Payment of registration fees                 : October 20, 2014

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Hot Articles for April!

Strong transparent magnetic nanopaper prepared by immobilization of Fe3O4 nanoparticles in a nanofibrillated cellulose network
Yuanyuan Li, Hongli Zhu, Hongbo Gu, Honggi Dai, Zhiqiang Fang, Nicholas J. Weadock, Zhanhu Guo and Liangbing Hu

Bidirectional actuation of a thermoplastic polyurethane elastomer
Martin Bothe and Thorsten Pretsch

Injectable biodegradable hydrogels: progress and challenges
Ki Hyun Bae, Li-Shan Wang and Motoichi Kurisawa

These papers are free to access until 8th May 2014 

To keep up-to-date with all the latest research, sign up to our RSS feed or Table of contents alert

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Hot Articles for March!

Defect-sensitive crystals based on diaminomaleonitrile-functionalized Schiff base with aggregation-enhanced emission
Tianyu Han, Yuning Hong, Ni Xie, Sijie Chen, Na Zhao, Enqui Zhao, Jacky W.Y. Lam, Herman H. Y. Sung, Yuping Dong, Bin Tong and Ben Zhong Tang

Luminescent distyrylbenzenes: tailoring molecular structure and crystalline morphology
Johannes Gierschner and Soo Young Park

 

Monodisperse Cu@PtCu nanocrystals and their conversion into hollow-PtCu nanostructures for methanol oxidation
Xiaoqing Huang, Yu Chen, Enbo Zhu, Yuxi Xu, Xiangfeng Duan and Yu Huang

These papers are free to access until 28th April 2014 

To keep up-to-date with all the latest research, sign up to our RSS feed or Table of contents alert 


(more…)

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Hot Articles for February!

Dynachromes – dynamic electrochromic polymers capable of property tuning and patterning via multiple constitutional component exchange
Daminda Navarathne and W.G. Skene

 

Graphical abstract: Dynachromes – dynamic electrochromic polymers capable of property tuning and patterning via multiple= 

Single-crystal FeFe(CN)6 nanoparticles: a high capacity and high rate cathode for Na-ion batteries
Xianyong Wu, Wenwen Deng, Jiangfeng Qian, Yuliang Cao, Xinping Ai and Hanxi Yang

Hot deformation induced bulk nanostructuring of unidirectionally grown p-type (Bi,Sb)2Te3 thermoelectric materials
Tiejun Zhu, Zhaojun Xu, Jian He, Junjie Shen, Song Zhu, Lipeng Hu, Terry M. Tritt and Xinbing Zhao

 

These papers are free to access until 18th March 2014 

To keep up-to-date with all the latest research, sign up to our RSS feed or Table of contents alert

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Themed Issue on the Fabrication Technology of Nanomaterials

Fabrication Technology of Nanomaterials brings together scaleable, high throughput nano and multiscale fabricaton techniques applied to pultifunctional materials.  The aim of thi sissue is to highlight the important contributions in this research area as well as highlighting the impact of nanostructured materials.

This issue was Guest Edited by Professor Fabio Biscarini and Dr massimilliano Cavallini of the Institute of Nanostructured Materials, CNR Bologna, Italy.  The full issue can be found here.

Below is a sample of the Papers, Applications, Communication and Feature Articles that can be found in the fabrication technology of nanomaterials themed issue:

Feature Article

Continuous and high-throughput nanopatterning methodologies based on mechanical deformation
Jong G. Ok, Se Hyun Ahn, Moon Kyu Kwak and L. Jay Guo

Application

Micro/nano-scale materials and structures for constructing neuronal networks and addressing neurons
Zhuo Huang and Xingyu Jiang

Communication

Nanofabrication of TaS2 conducting layers nanopatterned with Ta2O5 insulating regions via AFM
Eugenio Coronado, Alicia Forment-Aliaga, Efren Navarro-Moratalla, Elena Pinilla-Cienfuegos and Andres Castellanos-Gomez

Paper

Carbon nanorods and graphene-like nanosheets by hot filament CVD: growth mechanisms and electron field emission
B. B. Wang, K. Ostrikov, T. van der Laan, K. Zheng, J. J. Wang, Y. P. Yan and X. J. Quan

To keep up-to-date with all the latest research, sign-up to our RSS feed or Table of contents alert.

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