EES Blog

Scientists in the US and Sweden have produced a highly transparent and flexible paper that they coated with tin-doped indium oxide to make it conductive, so it can be used as a substrate for flexible solar cells. The material can be produced on a large scale at low cost, with an environmentally friendly, solution-based process.

Read more about this exciting research in this HOT EES article:

Transparent and Conductive Paper From Nanocellulose Fibers
Liangbing Hu, Guangyuan Zheng, Jie Yao, Nian Liu, Ben Daniel Weil, Yi Cui , Martin Eskilsson, Erdem Karabulut, Lars Wagberg, Zhichao Ruan, Shanhui Fan, Jason Bloking and Michael D. McGehee
DOI: 10.1039/C2EE23635D

Scientists based in Singapore have reviewed the application of nanomaterials in removing chemical and biological pollutants from the environment in this fascinating Energy & Environemntal Science article. Their review has recently been highlighted on nanowerk.

Read the review in full:

A review on nanomaterials for environmental remediation
Mya Mya Khin, A. Sreekumaran Nair, V. Jagadeesh Babu, Rajendiran Murugan and Seeram Ramakrishna
DOI: 10.1039/C2EE21818F

Scientists in the Republic of Korea have sandwiched an organic piezoelectric material – poly(vinylidene fluoride trifluoroethylene) [P(VDF-TrFE)] – between two graphene electrodes to make a fully flexible, rollable, stretchable, foldable and twistable nanogenerator.
The output voltage of the nanogenerator is up to 30 times that of a rigid nanogenerator when exposed to the same input sound waves and 8 times higher in the same air flow.
The team says that stretchable power generators could easily be transferred to fabrics, including clothes and flags for example, allowing them to harness energy from people’s movement or the wind.

Read the full details of this exciting research in Energy & Environmental Science:

Highly Sensitive Stretchable Transparent Piezoelectric Nanogenerator
Ju-Hyuck Lee, Keun Young Lee, Brijesh Kumar, Nguyen Thanh Tien, Nae_Eung Lee and Sang-Woo Kim
DOI: 10.1039/C2EE23530G

An EES article on a model system for achieving highly efficient solar cells which comprise lots of independent stacked units which rival the state of the art for cell performance when irradiated from the side has been featured on e! Science News.

To date systems of this type are made from direct band gap III–V semiconductors connected in series, which is much more complex to engineer.

Read more about this fascinating research today:

Multiple-bandgap vertical-junction architectures for ultra-efficient concentrator solar cells
Avi Braun, Alexis Vossier, Eugene A. Katz, Nicholas J. Ekins-Daukes and Jeffrey M. Gordon
DOI: 10.1039/C2EE22167E

To date, when making biofuel from non-food source biomass (for example corn stover – maize leaves and stalks), the hemicellulose and cellulose need to be separated before processing because of their different chemical and physical properties.

Now, US scientists have reported a system that allows them to be processed together; only a single reactor is required and no pre-treatment is needed (pre-treatment and extraction/separation steps can account for up to 30% of the capital cost of a biofuel plant, they say). The breakdown product of both materials, gamma-valerolactone, is also used as the solvent, which means that there is no need for solvent separation at the end of the process.

Read this HOT EES Communication in full today:

Integrated conversion of hemicellulose and cellulose from lignocellulosic biomass
David Martin Alonso, Stephanie Wettstein, Max Mellmer, Elif Gurbuz and James Dumesic
DOI: 10.1039/C2EE23617F