State-of-the-art in Photocatalysis with Semiconductor Materials

Written by Christopher Hinde. Christopher obtained his Masters in Chemistry (MChem) from the University of Southampton, UK in 2011. He is currently doing research towards a Ph.D. in the area of materials chemistry and catalysis under the supervision of both Dr Robert Raja at the University of Southampton and Prof. T. S. Andy Hor at the Institute of Materials Research and Engineering (IMRE), a research institute in Singapore’s Agency for Science Technology and Research (A*STAR).

Surely the next go-to article in the area of semiconductor photocatalysis, this thorough review by a group from the US is likely to appeal to both young researchers and established scientists alike. If you are new to the area of photocatalysis with semiconductor materials, the authors do a great job of collating the best background literature to introduce the topic, key principles and concepts in a concise fashion. At the same time, the authors have intricately organised the cutting edge research in the field so as to provide a useful tool for established researchers to continue pushing the frontiers of solar energy conversion.

In the first instance, a summary of single material photocatalysts are discussed from the well-known metal oxides and sulphides such as TiO2 and CdS through to mixed metal oxides and heavier group VI materials. Especially highlighted is how the chemical and physical structures of materials help to define the optical properties that are required for catalytic processes; band structures can be influenced by doping and energy losses can be minimised by manipulating the dimensionality and macrostructures of engineered materials.

Further discussed are more complex semiconductor composites, bringing together multiple semiconductors or combining with other materials such as carbons. These in turn have led to the development of devices such as tandem cells, which have drastically improved upon the quantum efficiencies that can be attained. The authors have successfully drawn together state-of-the-art work, breaking down the theoretical considerations in a logical manner, to allow the reader to appreciate the current state of research in the field whilst leaving the door wide open for development and innovation for the future.

Take a look at the full review article now!

Semiconductor-based photocatalysts and photoelectrochemical cells for solar fuel generation: a review

Jiangtian Li and   Nianqiang Wu

DOI: 10.1039/C4CY00974F
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HOT articles in Catalysis Science & Technology

Take a look at the selection which are free to read for a short time:

Stable and selective electrochemical reduction of carbon dioxide to ethylene on copper mesocrystals
Chung Shou Chen, Albertus D. Handoko, Jane Hui Wan, Liang Ma, Dan Ren and Boon Siang Yeo
DOI: 10.1039/C4CY00906A, Paper

Mechanistic insights into the Nb2O5 and niobium phosphate catalyzed in situ condensation of a fluorescent halochromic assembly Stefania Impellizzeri,
Sabrina Simoncelli, Chiara Fasciani, M. Luisa Marin, Geniece L. Hallett-Tapley, Gregory K. Hodgson and Juan C. Scaiano
DOI: 10.1039/C4CY00703D, Paper

C4CY00703D GA

The selective addition of water
Verena Resch and Ulf Hanefeld
DOI: 10.1039/C4CY00692E, Perspective

C4CY00692E

Nitrobenzene reduction catalyzed by carbon: does the reaction really belong to carbocatalysis?
Shuchang Wu, Guodong Wen, Jia Wang, Junfeng Rong, Baoning Zong, Robert Schlögl and Dang Sheng Su
DOI: 10.1039/C4CY00811A, Communication

C4CY00811A GA

The synthesis of pyrroles via acceptorless dehydrogenative condensation of secondary alcohols and 1,2-amino alcohols mediated by a robust and reusable catalyst based on nanometer-sized iridium particles
Daniel Forberg, Johannes Obenauf, Martin Friedrich, Sven-Martin Hühne, Werner Mader, Günter Motz and Rhett Kempe
DOI: 10.1039/C4CY01018C, Communication

C4CY01018C GA

Semiconductor-based photocatalysts and photoelectrochemical cells for solar fuel generation: a review
Jiangtian Li and Nianqiang Wu
DOI: 10.1039/C4CY00974F, Perspective

C4CY00974F GA

Synergistic effect of PtSe2 and graphene sheets supported by TiO2 as cocatalysts synthesized via microwave techniques for improved photocatalytic activity
Kefayat Ullah, Shu Ye, Zhu Lei, Kwang-Yeon Cho and Won-Chun Oh
DOI: 10.1039/C4CY00886C, Paper

C4CY00886C GA

One-pot synthesis of (R)-2-acetoxy-1-indanone from 1,2-indanedione combining metal catalyzed hydrogenation and chemoenzymatic dynamic kinetic resolution
Otto Långvik, Thomas Sandberg, Johan Wärnå, Dmitry Yu. Murzin and Reko Leino
DOI: 10.1039/C4CY01099J, Paper

C4CY01099J GA

Bottom-up approach to engineer two covalent porphyrinic frameworks as effective catalysts for selective oxidation
Weijie Zhang, Pingping Jiang, Ying Wang, Jian Zhang and Pingbo Zhang
DOI: 10.1039/C4CY00969J, Communication

C4CY00969J GA

Electrochemically dealloyed platinum with hierarchical pore structure as highly active catalytic coating
Ralph Kraehnert, Erik Ortel, Benjamin Paul, Bjoern Eckhardt, Michael Kanis, Ran Liu and Antonia Antoniou
DOI: 10.1039/C4CY00851K, Paper

C4CY00851K GA

Isotopic probes for ruthenium-catalyzed olefin metathesis
Justin A. M. Lummiss, Adrian G. G. Botti and Deryn E. Fogg
DOI: 10.1039/C4CY01118J, Paper
From themed collection Mechanistic Studies in Catalysis

Molybdenum blue nano-rings: an effective catalyst for the partial oxidation of cyclohexane
Xi Liu, Marco Conte, Weihao Weng, Qian He, Robert L. Jenkins, Masashi Watanabe, David J. Morgan, David W. Knight, Damien M. Murphy, Keith Whiston, Christopher J. Kiely and Graham J. Hutchings
DOI: 10.1039/C4CY01213E, Paper

C4CY01213E GA

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Linking Porphyrins for Heterogeneous Catalysis

Written by Christopher Hinde. Christopher obtained his Masters in Chemistry (MChem) from the University of Southampton, UK in 2011. He is currently doing research towards a Ph.D. in the area of materials chemistry and catalysis under the supervision of both Dr Robert Raja at the University of Southampton and Prof. T. S. Andy Hor at the Institute of Materials Research and Engineering (IMRE), a research institute in Singapore’s Agency for Science Technology and Research (A*STAR).

In this recent communication, W. Zhang and co-workers have demonstrated a novel way to form covalent porphyrinic frameworks (CPFs) using squaraine and hydrazine linkers. By using purely organic moieties the researchers have eliminated the need for metal nodes that are present in the more traditional porous coordination polymers.

Using the principles of supramolecular chemistry the authors have used a metallation process to introduce manganese, a well-known and abundant redox active transition metal, into the cavity of the porphyrin component of the framework. Thus, an easily accessible active site for redox catalysis was generated and subsequently demonstrated to be active for the selective oxidation of aliphatic molecules.

Interestingly, it was also shown that the choice of linker can have an effect on the resulting catalytic activity of these new materials. Preliminary characterisation showed a correlation between the extended conjugation of the organic framework, the state of the manganese and the activity/selectivity of the catalytic processes. This phenomenon, often observed in homogeneous porphyrin catalysts, has been elegantly incorporated into these heterogeneous analogues. One can hypothesise that in future, by careful design of the organic linkers joining the porphyrin units, it may be possible to fine-tune the material for different catalytic reactions.

To find out more, why not take a look at the article now?

Bottom-up approach to engineer two covalent porphyrinic frameworks as effective catalysts for selective oxidation

Weijie Zhang, Pingping Jiang, Ying Wang, Jian Zhang and Pingbo Zhang

Catal. Sci. Technol., 2015, DOI: 10.1039/C4CY00969J

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Unfogging metathesis catalyst deactivation

Grubbs catalyst deactivationD. Fogg et al. have discovered a powerful means to observe the behaviour of Grubbs metathesis catalysts.

The University of Ottawa researchers tagged first- and second-generation ruthenium catalysts with a 13C label at the alkylidene site using straightforward synthesis routes. This isotopic enrichment allowed 13C NMR spectroscopy to serve as a sensitive probe for the amine-initiated decomposition pathway.

A surprising preference for nucleophilic attack by phosphine was clearly revealed in the 13C NMR spectrum. This demonstrates the diagnostic utility of 13C-enriched complexes relative to both their unlabelled and deuterium-labelled analogues.

This article is featured amongst many other excellent contributions in the latest Catalysis Science & Technology themed issue, Mechanistic Studies in Catalysis.

Take a look at the original article online now!

Isotopic Probes for Ruthenium-Catalyzed Olefin Metathesis
Justin A. M. Lummiss, Adrian G. G. Botti, and Deryn E. Fogg*
Catal. Sci. Technol. 2014, Advance Article, DOI: 10.1039/C4CY01118J

Jenna Flogeras obtained her B.Sc. and M.Sc. in Chemistry from the University of New Brunswick (Fredericton), Canada. She is currently a Ph.D. student at Memorial University in Newfoundland, where she studies aluminum-based catalysts under the supervision of Dr. Francesca Kerton.

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Mechanistic studies in catalysis themed issue – now online

We are delighted to present a themed issue on ‘Mechanistic studies in catalysis’, which encompasses novel and diverse research in both homogeneous and heterogeneous catalysis. The guest editors for this themed issue are Professors John Brown (University of Oxford), Andreas Pfaltz (University of Basel), and Rutger van Santen (Eindhoven University of Technology).

Here’s a few highlights from the issue:

Many more great contributions have been received, so make sure to have a look at the rest of the themed collection online now!

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Promising catalysts for carbon dioxide capture

A team of researchers at the University of Kentucky have developed highly active homogeneous catalysts for the capture of carbon dioxide in post-combustion processes. The complexes, based on zinc and cobalt metal centres, increase mass transfer by up to 34% in concentrated, aqueous solutions of primary amine.

Carbonic anhydrase metalloenzymes are known as the most active catalysts for the hydration of carbon dioxide under mild conditions. The catalysts reported here are inexpensive alternatives that can better tolerate the harsh conditions of industrial gas streams.

Read the full article online now:

K. Liu et al., Catal. Sci. Technol. 2014, Advance Article
DOI: 10.1039/C4CY00766B

Jenna Flogeras obtained her B.Sc. and M.Sc. in Chemistry from the University of New Brunswick (Fredericton), Canada. She is currently a Ph.D. student at Memorial University in Newfoundland, where she studies aluminum-based catalysts under the supervision of Dr. Francesca Kerton.
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Catalysis Science & Technology Impact Factor rises to 4.76

We are thrilled to announce that Catalysis Science & Technology’s new impact factor* has increased to 4.76.

Huge thanks goes to all of our authors, referees and readers who have contributed to and supported the journal. Achieving this impact factor would not have course not been possible without this support and that of our dedicated Editorial and Advisory Board members.

Catalysis Science & Technology publishes high quality research from the multidisciplinary field of Catalysis, focussing on both the fundamental science of catalysis amd the science of catalysis technology. It publishes research faster than any other catalysis journal (read more here).

We invite you to submit your best work to our Editorial Office.

Read more about the 2013 Impact Factors from across RSC Publishing on the RSC Publishing Blog.

*The Impact Factor provides an indication of the average number of citations per paper. Produced annually, Impact Factors are calculated by dividing the number of citations in a year by the number of citeable articles published in the preceding two years. Data based on 2013 Journal Citation Reports®, (Thomson Reuters, 2014).

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Sustainable catalytic conversions of renewable substrates themed issue online now!

The latest issue of Catalysis Science and Technology contains a themed collection on Sustainable catalytic conversions of renewable substrates. The issue was guest edited by Pieter C. A. Bruijnincx (Utrecht University) and Yuriy Román-Leshkov (Massachusetts Institute of Technology).

This issue contains contributions on topics related to catalytic biomass conversion methods, including homogeneous, heterogeneous and enzymatic processes. The themed issue will cover contributions concerned with chemical or chemical engineering aspects of the selective catalytic conversion of renewable feedstocks, for instance lignocellulosic biomass or its (hemi)cellulose or lignin components, or with the catalytic conversion of renewable platform molecules that can be derived from these feedstocks.

Here’s a small taster of the excellent content in this themed issue:Themed issue cover

Check out the rest of the articles in this exciting and timely themed issue on the website now!

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New Associate Editor for Catalysis Science & Technology

DingMa Professor Ding Ma has become Catalysis Science & Technology‘s newest Associate Editor.

Professor Ma is currently Professor at Peking University in China. He is handling papers already so submit your best work to him now.

His research focuses on heterogeneous catalysis, particularly when applied to energy innovation, for example methane and syngas conversion. He also works on developing new reaction routes for sustainable chemistry and in situ spectroscopic methods which can be used to study reaction mechanisms.

Professor Ma hopes that his expertise will contribute to the excellence of CS&T, and make this flagship catalysis journal of the Royal Society of Chemistry the best place for scientists in the catalytic community to publish their work and researchers to read exciting results.

On behalf of Professor Ma and the rest of our Editorial Board, we would like to invite you to submit your best work to Catalysis Science & Technology.

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Congratulations to the poster prize winners at NSC2014

Congratulations to the poster prize winners at NSC2014 (16th Nordic Symposium on Catalysis). Green Chemistry and Catalysis Science & Technology were pleased to sponsor a poster prize each at the symposium, which were awarded as follows:

Green Chemistry poster prize
awarded to Aron Dombovari, University of Oulu
for “Photocatalytic processing of algae

Catalysis Science & Technology poster prize
awarded to Jacob O. Abildstrøm, Technical University of Denmark
for “Investigation of Mesoporous TS-1 for the Catalytic Formation of N-oxides

The prize winners received a certificate and a book from Royal Society of Chemistry Books.

You can read more about the Poster Award and find out about the Nordic Symposium on the UiO website.

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