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1. Paper-based electrochemiluminescence origami device for protein detection using assembled cascade DNA–carbon dots nanotags based on rolling circle amplification

Author

Jinghua Yu, Wu Ludan, Haiyun Liu, Chao Ma, and Xiaoxiao Zheng

Subjects
Paper, Working electrode, Oligonucleotides, Biomedical Engineering, Biophysics, Nanotechnology, Biosensing Techniques, chemistry.chemical_compound, Limit of Detection, Quantum Dots, Electrochemistry, Humans, Electrochemiluminescence, Electrodes, Detection limit, Oligonucleotide, DNA, Electrochemical Techniques, Equipment Design, General Medicine, Carbon, chemistry, Rolling circle replication, Cascade, Immunoglobulin G, Electrode, Gold, Nucleic Acid Amplification Techniques, Biotechnology
Abstract

In this work, we developed a cascade signal amplification strategy for detection of IgG antigen by combining the rolling circle amplification (RCA) technique with oligonucleotide functionalized carbon dots (CDs), based on a paper-based electrochemiluminescence (ECL) origami device (PECLOD) for the first time. In this PECLOD, three-dimensional (3D) macroporous Au-paper electrode was fabricated and employed as the working electrode for specific and efficient antibodies capture. The RCA product containing tandem-repeat sequences could serve as an excellent template for periodic assembly of CDs, which presented per protein recognition event to numerous CDs tags for ECL readout. Under the optimal conditions, the proposed strategy showed remarkable amplification efficiency, very little nonspecific adsorption with good stability, reproducibility, and accuracy. Using human IgG (H-IgG) as a model protein, the designed strategy was successfully demonstrated for the ultrasensitive detection of protein target. The results revealed that the strategy exhibited a dynamic response to H-IgG range from 1.0 fM to 25 pM with a limit of detection as low as 0.15 fM. Importantly, the methodology can be further extended to the detection of other proteins or biomarkers.

Published
2015

2. The GHG contribution of the cascaded use of harvested wood products in comparison with the use of wood for energy-A case study on available forest resources in Canada

Author

Sikkema, Richard, Junginger, Martin, McFarlane, Paul, Faaij, André, Energy System Analysis, Energy and Resources, Energy System Analysis, and Energy and Resources

Subjects
Canada, Geography, Planning and Development, recycle fermentation, Management, Monitoring, Policy and Law, case study, forest, emission tomography, Bioenergy, Environmental protection, Production (economics), controlled study, fossil fuel, comparative study, Cradle-to-cradle utilization, pellet extrusion, business.industry, paper, Fossil fuel, Harvested wood products, article, carbon dioxide, Carbon footprint, Renewable energy, tree, Forest resource, priority journal, Managed forest, Greenhouse gas, Cascade, Environmental science, Energy wood, business, Tonne, energy, wood
Abstract

Some Parties (Countries) to the UNFCCC decided to include the carbon uptake by harvested wood products (HWP) in a new general accounting framework after 2012 (post Kyoto). The analysis aims to make a comparison between the cascaded use of HWP and the use of wood for energy. We combine the new HWP framework with an assumed increased 50 million m3harvest level in Canada and evaluate the impact of the GHG emissions over a 100-year period. Our reference case assumes all harvested wood is an immediate CO2emission (IPCC default) and no substitution effects, i.e. annual GHG emissions of 41 million tonnes CO2eq. In our wood utilization scenario's, harvested trees are allocated (in varying shares) to three end-products: construction wood, paper products and pellets for power production. In comparison with our base case, a combination of fossil fuel substitution, material substitution and temporary carbon uptake by HWP leads to significant decreases in GHG emissions. All scenario's show annual GHG emission between 18 and 21 million tonnes CO2eqexcept for triple use without recycling (at least 24 million tonnes CO2eq). We conclude that GHG emissions of our scenarios are substantially lower than IPCC default. However, it is difficult to incorporate one single method to account for GHG uptake and emissions by HWP, due to end use efficiency and recycling options. Further GHG allocation over individual countries is not straightforward and needs further research. © 2013 Elsevier Ltd.

Published
2013