Photonics and Energy Conversion: From High Temperature Photonic Crystals to Nanowire Array Photoanodes

Prineha Narang is a guest web-writer for EES. Pri is a Ph.D. student in Applied Physics with Profs. Harry A. Atwater and Nathan S. Lewis at Caltech. Outside the lab, she spends her time climbing mountains and running.

Nanophotonic concepts, ranging from photonic crystals to nanowire arrays, are of tremendous interest in both solid state and photoelectrochemical (PEC) energy conversion devices.

Rinnerbauer et al, in 2012, presented a review on an emerging direction in photonics, high-temperature nanophotonics using large area 2D metallic photonic crystals aimed at solid-state energy conversion. Recently, Hu et al have shown impressive optical results in GaAs nanowire array photoanodes (for PEC devices) that occupy <5% of the fractional area of the electrode, due to efficient incoupling into the resonant waveguide modes. Despite the differences in their intended application, both papers share a common theme: use of fundamental yet scalable nanophotonic concepts in energy conversion.

Photonic crystals (PhCs) are periodically nanostructured metamaterials with unique optical properties and flexibility in the design of their density of states. In their review, Rinnerbauer et al demonstrate the efficiency of selective emitters based on 2D photonic crystals in refractory metals (like Tantalum and Tungsten). These PhCs are paving the way for high efficiency high temperature thermal-to-electricity conversion schemes based on selective emitters and absorbers, like TPV, solar thermal and solar TPV.

Work by Hu et al shows that enhanced optical absorption, in conjunction with radial carrier-collection, results in high external quantum yields (EQYs) when the periodic nanowire arrays of GaAs are used as energy-conversion devices. The key to the absorption properties of these arrays is guided and leaky optical waveguide modes determined through a combination of experimental and theoretical analysis.

Nanophotonic device design certainly has a big role in the future of energy-conversion. A variety of schemes have been proposed and demonstrated in both solid state and PEC systems and these papers represent critical steps in nanophotonic energy conversion.

By Prineha Narang

Read the papers here:

Recent developments in high-temperature photonic crystals for energy conversion
Veronika Rinnerbauer, Sidy Ndao, Yi Xiang Yeng, Walker R. Chan, Jay J. Senkevich, John D. Joannopoulos, Marin Soljacic and Ivan Celanovic
DOI: 10.1039/c2ee22731b

Optical, electrical, and solar energy-conversion properties of gallium arsenide nanowire-array photoanodes
Shu Hu, Chun-Yung Chi, Katherine T. Fountaine, Maoqing Yao, Harry A. Atwater, P. Daniel Dapkus, Nathan S. Lewis and Chongwu Zhou
DOI: 10.1039/c3ee40243f

Interested in photonics research? See our collection of articles on photonics that are free to access for a limited time here.

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Sustainability at All Stages: A New Tool for Assessing Novel Chemical Processes

Paige Johnson is a guest web-writer for EES. Paige is a member of the administrative staff at Caltech and is working on her MS in Science Communication. She has a background in evolutionary biology and dinosaur paleontology, and spends her free time trying to learning new things and enjoying the outdoors.

A novel method developed by energy researchers offers a way to assess sustainability of chemical processes at an early stage.

When developing novel chemical conversions, researchers have faced the challenge of assessing and predicting the broader environmental and economic impact of their work. Previously, no defined method was available for comparing criteria for overall sustainability of the new processes at an early state of development. Patel et al. have developed a multi-criteria method to assess future sustainability that can be applied at an early stage to help guide innovation.

Early stage process development is a time when there is flexibility to pursue sustainable options. In a recently published EES paper, Patel et al. propose that their method can help researchers analyze the processes they are developing within a broader economic, environmental, and social context. The method described in the paper is a data-based assessment tool for chemists to determine comparative sustainability of different processes. The criteria assessed are environmental constraint, environmental impact of raw materials, process costs and environmental impact, EHS index, and risk aspects. The paper describes the method for applying these criteria to chemical processes to create a score by which different processes can be compared.

Patel et al. apply their method to a catalytic process for the production of but-1,3-diene from ethanol that is currently being developed, and compare it to the dominant conventional method for production of but-1,3-diene from naphtha in a steam cracker. When they applied their method to these processes, the bioethanol-based process scored better than the petrochemical process overall, and the scores for the various criteria were in line with known data. While the input data may be less well defined for novel processes, that this method seems to be predictive and provides a comparison of different processes suggests that in most cases it can be useful for providing a broad assessment of sustainability factors, and can therefore aid early stage decision making.

It’s great that we’re at a point where there is encouragement for researchers to consider sustainability issues at all stages of development, and that people are thinking about ways to make it practical to do so. I think this new method will prove to be a concrete tool for researchers developing novel chemical conversion processes to start thinking about sustainability on the front end. Not only will it provide a relatively quick way to assess new processes in terms of sustainability, it can help guide research targets and goals, prompt consideration of potential alternatives, and encourage researchers to think about their results in a broader context.

Read about the details of this new approach in the full EES article here:

Sustainability assessment of novel chemical processes at early stage: application to biobased processes
Akshay D. Patel, Koen Meesters, Herman den Uil, Ed de Jong, Kornelis Blok and Martin K. Patel
Energy Environ. Sci., 2012, 5, 8430
DOI: 10.1039/c2ee21581k

By Paige Johnson

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This week’s HOT articles

These articles are HOT as recommended by the referees.

Take a look at this week’s selection…

Coordinated shifts of interfacial energy levels: insight into electron injection in highly efficient dye-sensitized solar cells
Xudong Yang, Shufang Zhang, Kun Zhang, Jian Liu, Chuanjiang Qin, Han Chen, Ashraful Islam and Liyuan Han

Building multiple adsorption sites in porous polymer networks for carbon capture applications
Weigang Lu, Wolfgang M. Verdegaal, Jiamei Yu, Perla B. Balbuena, Hae-Kwon Jeong and Hong-Cai Zhou

Molten air – a new, highest energy class of rechargeable batteries
Stuart Licht, Baochen Cui, Jessica Stuart, Baohui Wang and Jason Lau  

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EES Issue 10 of 2013 out now!

The latest issue of EES is now online. You can read the full issue here.

The outside front cover features the article Nitrogen: unravelling the secret to stable carbon-supported Pt-alloy electrocatalysts by O’Hayre et al.

Performance enhancement of thin-fi lm amorphous silicon solar cells with low cost nanodent plasmonic substrates is the Paper highlighted on the inside front cover by Shen, Li, Fan et al.

Issue 10 contains a number of excellent Opinion, Analysis, Review and Perspective articles:

Implanted biofuel cells operating in vivo – methods, applications and perspectives – feature article
Evgeny Katz and Kevin MacVittie  

The energetic implications of curtailing versus storing solar- and wind-generated electricity
Charles J. Barnhart, Michael Dale, Adam R. Brandt and Sally M. Benson

Assessing the drivers of regional trends in solar photovoltaic manufacturing
Alan C. Goodrich, Douglas M. Powell, Ted L. James, Michael Woodhouse and Tonio Buonassisi     

CZTS nanocrystals: a promising approach for next generation thin film photovoltaics
Huanping Zhou, Wan-Ching Hsu, Hsin-Sheng Duan, Brion Bob, Wenbing Yang, Tze-Bin Song, Chia-Jung Hsu and Yang Yang   

Doping carbons beyond nitrogen: an overview of advanced heteroatom doped carbons with boron, sulphur and phosphorus for energy applications
Jens Peter Paraknowitsch and Arne Thomas   

3D nanostructured conductive polymer hydrogels for high-performance electrochemical devices
Yu Zhao, Borui Liu, Lijia Pan and Guihua Yu

Visualizing physical, electronic, and optical properties of organic photovoltaic cells

Martin Pfannmöller, Wolfgang Kowalsky and Rasmus R. Schröder

Biological conversion of carbon dioxide to photosynthetic fuels and electrofuels
Han Li and James C. Liao

Fancy submitting an article to EES? Then why not submit to us today!

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High impact research on photonics

We would like to share with you a selection of recent articles published in the Royal Society of Chemistry journals Energy & Environmental Science (EES), Nanoscale and Physical Chemistry Chemical Physics (PCCP) in the area of photonics.

You can read these articles for free for a limited period by clicking on the links below.

EES, Nanoscale and PCCP are high-impact journals published on a not-for-profit ethos for the benefit of the wider scientific community.

Sign up to receive the latest news from your favourite journals.


With an Impact Factor of 11.65, which is rising fast, EES is the ideal place to publish your research.

Recent developments in high-temperature photonic crystals for energy conversion
Veronika Rinnerbauer, Sidy Ndao, Yi Xiang Yeng, Walker R. Chan, Jay J. Senkevich, John D. Joannopoulos, Marin Soljačić and Ivan Celanovic
DOI: 10.1039/C2EE22731B, Review Article

Plasmonic solar water splitting
Scott C. Warren and Elijah Thimsen
DOI: 10.1039/C1EE02875H, Review Article

Upconverter solar cells: materials and applications
J. de Wild, A. Meijerink, J. K. Rath, W. G. J. H. M. van Sark and R. E. I. Schropp
DOI: 10.1039/C1EE01659H, Perspective

Optical, electrical, and solar energy-conversion properties of gallium arsenide nanowire-array photoanodes
Shu Hu, Chun-Yung Chi, Katherine T. Fountaine, Maoqing Yao, Harry A. Atwater, P. Daniel Dapkus, Nathan S. Lewis and Chongwu Zhou
DOI: 10.1039/C3EE40243F, Paper

Fabrication and assembly of ultrathin high-efficiency silicon solar microcells integrating electrical passivation and anti-reflection coatings
Yuan Yao, Eric Brueckner, Lanfang Li and Ralph Nuzzo
DOI: 10.1039/C3EE42230E, Paper

Biodegradable transparent substrates for flexible organic-light-emitting diodes
Hongli Zhu, Zhengguo Xiao, Detao Liu, Yuanyuan Li, Nicholas J. Weadock, Zhiqiang Fang, Jinsong Huang and Liangbing Hu
DOI: 10.1039/C3EE40492G, Communication

High-performance hybrid plastic films: a robust electrode platform for thin-film optoelectronics
Jungho Jin, Jaemin Lee, Seonju Jeong, SeungCheol Yang, Ji-Hoon Ko, Hyeon-Gyun Im, Se-Woong Baek, Jung-Yong Lee and Byeong-Soo Bae
DOI: 10.1039/C3EE24306K, Paper

VO2–Sb:SnO2 composite thermochromic smart glass foil
Yanfeng Gao, Shaobo Wang, Litao Kang, Zhang Chen, Jing Du, Xinling Liu, Hongjie Luo and Minoru Kanehira
DOI: 10.1039/C2EE21119J, Paper

Broadband and wide angle antireflection of sub-20 nm GaAs nanograss
Srikanth Ravipati, Jiann Shieh, Fu-Hsiang Ko, Chen-Chieh Yu, Hsuen-Li Chen, Chia-Tien Wu and Szu-Hung Chen
DOI: 10.1039/C2EE21558F, Paper


Nanoscale publishes community-spanning research across the fields of nanoscience and nanotechnology. Its Impact Factor is currently 6.23.

Efficient photon management with nanostructures for photovoltaics
Bo Hua, Qingfeng Lin, Qianpeng Zhang and Zhiyong Fan
DOI: 10.1039/C3NR01152F, Review Article

Infrared colloidal lead chalcogenide nanocrystals: Synthesis, properties, and photovoltaic applications
Huiying Fu and Sai-Wing Tsang
DOI: 10.1039/C2NR11836J, Review Article

Lanthanide-doped luminescent nano-bioprobes: from fundamentals to biodetection
Yongsheng Liu, Datao Tu, Haomiao Zhu, En Ma and Xueyuan Chen
DOI: 10.1039/C2NR33239F, Feature Article

Optical antennas as nanoscale resonators
Mario Agio
DOI: 10.1039/C1NR11116G, Feature Article

Reflective plasmonic color filters based on lithographically patterned silver nanorod arrays
Guangyuan Si, Yanhui Zhao, Jiangtao Lv, Mengqian Lu, Fengwen Wang, Hailong Liu, Ning Xiang, Tony Jun Huang, Aaron J. Danner, Jinghua Teng and Yan Jun Liu
DOI: 10.1039/C3NR01419C, Communication

Multicolor patterning using holographic woodpile photonic crystals at visible wavelengths
Sung-Gyu Park and Seung-Man Yang
DOI: 10.1039/C3NR00644A, Communication


PCCP is committed to publishing the best research across physical chemistry, chemical physics and biophysical chemistry.

The photophysics of porous silicon: technological and biomedical implications
Gennady E. Kotkovskiy, Yury A. Kuzishchin, Igor L. Martynov, Alexander A. Chistyakov and Igor Nabiev
DOI: 10.1039/C2CP42019H, Perspective

Plasmonic fluorescence enhancement by metal nanostructures: shaping the future of bionanotechnology
Daniel Darvill, Anthony Centeno and Fang Xie
DOI: 10.1039/C3CP50415H, Perspective

Resonance optical manipulation of nano-objects based on nonlinear optical response
Tetsuhiro Kudo and Hajime Ishihara
DOI: 10.1039/C3CP51969D, Perspective

Molecular optoelectronics: the interaction of molecular conduction junctions with light
Michael Galperin and Abraham Nitzan
DOI: 10.1039/C2CP40636E, Perspective

Nanoparticle surface electromagnetic fields studied by single-particle nonlinear optical spectroscopy
Manabendra Chandra and Kenneth L. Knappenberger
DOI: 10.1039/C2CP43271D, Paper

Switching of emissive and NLO properties in push–pull chromophores with crescent PPV-like structures
Carmine Coluccini, Arvind K. Sharma, Marco Caricato, Angelo Sironi, Elena Cariati, Stefania Righetto, Elisa Tordin, Chiara Botta, Alessandra Forni and Dario Pasini
DOI: 10.1039/C2CP43140H, Paper


Faraday Discussion 174 will be on the topic of “Organics, Photonics & Electronics”. The oral abstract submission deadline is the 18th November 2013. Find out more here.

You may also be interested in the following themed issues in PCCP:

Plasmonics and spectroscopy
Guest Editor: Pablo Etchegoin

Optical studies of single metal nanoparticles
Guest Editors: Greg Hartland, Hiromi Okamoto, Michel Orrit and Peter Zijlstra

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This week’s HOT articles

These articles are HOT as recommended by the referees.

Take a look at this week’s selection…

Direct prediction of the desalination performance of porous carbon electrodes for capacitive deionization
S. Porada, L. Borchardt, M. Oschatz, M. Bryjak, J. S. Atchison, K. J. Keesman, S. Kaskel, P. M. Biesheuvel and V. Presser
DOI: 10.1039/C3EE42209G, Paper

The identification, characterization and mitigation of defect states in organic photovoltaic devices: a review and outlook
John A. Carr and Sumit Chaudhary
DOI: 10.1039/C3EE41860J, Review Article

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In-Vivo Biofuel Cells – Truly Mobile Power Generation

David Novitski is a guest web-writer for Energy & Environmental Science. David is a PhD student in Dr Steven Holdcroft’s group at Simon Fraser University. When not in the lab, he enjoys eating food, contemplating the universe, and mountain biking.

Efforts made at Clarkson University have demonstrated implantable biofuel cells that can be used to one day generate power for medical implants in humans.

In their most recent feature article, Katz and coworkers have showcased their work towards an implantable energy generation device that could one day be made compatible in humans. One of the largest problems in making implantable biofuel cells practical is generating enough voltage and current to power a device. Using electrodes comprised of compressed multi-walled carbon nanotubes, the researchers have been able to generate 470 mV open circuit voltage, at a current of 5 mA short circuit. Coupled with a DC-DC converter, it was enough power to operate a pacemaker from a single device.

The article goes into detailed explanation, refreshingly, about the current constraints and considerations to be made in order to advance this technology further. One such aspect is to improve the amount of active enzymes on the electrode surface, which is currently only measured at 6% electrically active on the electrodes. By improving this single factor, it is believed that the current density could be large enough for a small (0.5 cm2 electrodes) implantable device.

It is postulated in the paper that one day miniature devices could be implanted in the human brain, where a constant source of glucose fuel could be delivered in order to power devices. Who knows, we may soon be pouring over literature from the comfort of our own cranium computers!

Interested? Read the full communication in Energy and Environmental Science here:

Implanted biofuel cells operating in vivo – methods, applications and perspectives
Evgeny Katz, Kevin MacVittie
DOI: 10.1039/C3EE42126K

By David Novitski

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Enhanced thermoelectric performance for BiCuSeO oxyselenides

Martina Congiu is a guest web-writer for Energy and Environmental Science. Martina is currently a Research Technician in Dr Henry Snaith’s group at the University of Oxford. During her free time from work, she loves cooking and cycling in the outskirts of Oxford.

Thermoelectric power generation technology aims to harvest and convert waste heat into electricity. Researchers are looking for not toxic, abundant and inexpensive new materials with good thermal and chemical stability in air at high temperatures.

Quaternary oxyselenides (BiCuSeO) have been addressed as a promising thermoelectric system to use in sustainable energy generation from waste heat. Thermoelectric conversion efficiencies for these materials is described by the dimensionless figure of merit, ZT, which has reached a maximum value of about 1.4. Textured Bi0.875Ba0.125CuSeO has outperformed this value due to its low thermal conductivity and improved electrical transport properties, which has been achieved by increasing carrier concentration through optimising dopants.

Texturation boosts the thermoelectric performance of BiCuSeO oxyselenides

In a recent article by Li-Dong Zhao and co-workers, a hot-forging process was used to produce grains oriented along a preferential axis. A higher carrier mobility along the direction perpendicular to the pressing direction was also obtained. The microstructure was then observed using X-ray diffraction (XRD) and scanning electron microscopy (SEM).

The highest ZT value ever reported for oxygen containing materials was achieved making oxyselenides a valid candidate for medium temperature thermoelectric applications.

Interested in a better understanding about this field? Read more from the Communication article:

Texturation boosts the thermoelectric performance of BiCuSeO oxyselenides
Jiehe Sui, Jing Li, Jiaqing He, Yan-Ling Pei, David Berardan, Haijun Wu, Nita Dragoe, Wei Cai and Li-Dong Zhao
DOI: 10.1039/C3EE41859F, Communication

By Martina Congiu

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This week’s HOT articles

These articles are HOT as recommended by the referees.

Take a look at this week’s selection…

Energy applications of ionic liquids
Douglas R. MacFarlane, Naoki Tachikawa, Maria Forsyth, Jennifer M. Pringle, Patrick C. Howlett, Gloria D. Elliott, James H. Davis, Masayoshi Watanabe, Patrice Simon and C. Austen Angell
DOI: 10.1039/C3EE42099J, Perspective

Diffusion and adsorption of dye molecules in mesoporous TiO2 photoelectrodes studied by indirect nanoplasmonic sensing
Viktoria Gusak, Leo-Philipp Heiniger, Vladimir P. Zhdanov, Michael Grätzel, Bengt Kasemo and Christoph Langhammer
DOI: 10.1039/C3EE42352B, Paper

Diffusion and adsorption of dye molecules in mesoporous TiO2 photoelectrodes studied by indirect nanoplasmonic sensing

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Conductive polymer hydrogels for the next generation of high-performance electrochemical devices

Heather is a PhD candidate working on solar energy with Nate Lewis at Caltech.  When she isn’t growing microstructured silicon photocathodes, she can be found horseback riding, singing and hiking.

Conductive polymer hydrogels (CPHs) are of significant interest for a broad range of applications, including biosensors, lithium batteries, supercapacitors and biofuel cells.

The cutting edge of the field is in creating 3D nanostructured CPHs for electrochemical devices, and a recent review by Lijia PanGuihua Yu et al. focuses on new synthetic techniques to make these nanostructured materials, along with a discussion of their potential applications.

One of the greatest strengths of the CPHs is their versatility.  Many different conductive polymers, such as PEDOT, PAni, PPy and PTH can be used as the electrical backbone of the material, and there are many templating techniques (such as inkjet printing, copolymerization and template-directed growth) that can be used to achieve the desired morphology and electrical properties.

An exciting new synthetic route to nanostructured CPHs is gelation of a PAni network using phytic acid as the gelator and dopant.  The interactions between the phytic acid molecules and the PAni chains allows for the formation of “foam-like nanostructures which are constructed with coral-like dendritic nanofibers with uniform diameters of 60–100 nm).”  The PAni chains allow for excellent electrical conductivity and the as-prepared hydrogel is suitable for spray coating and inkjet printing.  PAni hydrogels as high-performance electrodes for glucose sensors and supercapacitors have been demonstrated, and other CPHs show great promise for battery electrodes, in drug delivery devices, and in the removal of free radicals from the environment.

Want to know more?  Read the full article in EES today!

3D nanostructured conductive polymer hydrogels for high-performance electrochemical devices
Yu Zhao, Borui Liu, Lijia Pan and Guihua Yu
DOI: 10.1039/C3EE40997J

By Heather Audesirk

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