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- Öhlund, Thomas, et al.
(author)
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Assisted sintering of silver nanoparticle inkjet inks on paper with active coatings
- 2015
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In: RSC Advances. - : Royal Society of Chemistry (RSC). - 2046-2069. ; 5, s. 64841-64849
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Journal article (peer-reviewed)abstract
- Inkjet-printed metal films are important within the emerging field of printed electronics. For large-scale manufacturing, low-cost flexible substrates and low temperature sintering is desired. Tailored coated substrates are interesting for roll-to-roll fabrication of printed electronics, since a suitable tailoring of the ink-substrate system may reduce, or remove, the need for explicit sintering. Here we utilize specially designed coated papers, containing chloride as an active sintering agent. The built-in sintering agent greatly assists low-temperature sintering of inkjet-printed AgNP films. Further, we examine the effect of variations in coating pore size and precoating type. Interestingly, we find that the sintering is substantially affected by these parameters.
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| 2. |
- Alecrim, Viviane, et al.
(author)
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Exfoliated Layered Materials for Digital Fabrication
- 2015
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In: NIP & Digital Fabrication Conference. ; , s. 192-194
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Conference paper (peer-reviewed)abstract
- We introduced an exfoliation method of MoS2 in a 3% solution of sodium dodecyl surfactant at high concentration (i.e. 2 g/L). The bulk MoS2 was thinned by mechanical exfoliation between sand papers and the resulting powder was used to prepare dispersions by liquid exfoliation through probe sonication. The resulting dispersion consisted of very thin MoS2 nanosheets in surfactant solution with average lateral size around 126 nm. This may be interesting for applications in inkjet printed electronics.
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| 5. |
- Andersson, Charlotte, et al.
(author)
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Diurnal variations in biodistribution of the radionuclide I-131 in mice
- 2016
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In: Swedish Cancer Research Meeting, Gothenburg, 2016, November 7-8.
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Conference paper (other academic/artistic)abstract
- Background: Radionuclides are routinely used to diagnose and treat many different types of cancer. I-131 is a well-established radioisotope used in e.g. treatment of thyroid cancer and neuroblastoma. Accurate knowledge of I-131 biodistribution is essential to correctly estimate the absorbed dose to normal organs and determine potential risks from I-131 exposure, which is especially important when treating children. Many biological functions in living organisms follow a circadian rhythm. Nevertheless, little is known about diurnal variations in radionuclide biodistribution. This study investigates if circadian rhythm affects I-131 biodistribution in mice and absorbed dose to organs and tissues. Materials & Methods: The radioactivity concentration in mice tissues was studied at different time-points after administration of I-131, and absorbed doses were calculated. The effect of circadian rhythm was studied by varying the time of administration. Results: Difference in activity concentration between the administration time-points was observed at many time-points after administration for most investigated tissues. For some organs differences were also observed in the absorbed dose. The highest activity concentration and absorbed dose were found in the thyroid regardless of time of administration. Conclusion: The results demonstrate that the biodistribution of I-131 in mice is influenced by the time of day of administration. These findings advocate that circadian rhythm should be considered in biodistribution studies and suggests that time-point of administration of radiopharmaceuticals containing I-131 for therapy can be further optimized. An optimized time-point could result in higher absorbed dose to the tumor and/or lower absorbed dose to normal tissues.
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| 6. |
- Andersson, Charlotte, et al.
(author)
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The influence of circadian rhythm on the biodistribution of I-131
- 2016
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In: Swedish Radiation Research Association for Young Scientists Workshop, Stockholm, 2016, August 25-26.
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Conference paper (other academic/artistic)abstract
- Background: I-131 is well-established in nuclear medicine. The thyroid is a target organ when treating thyroid cancer with unbound I-131, but also a risk organ in I-131-based radionuclide therapy. Exposure to I-131 can also occur from the environment at nuclear accidents. Accurate knowledge of I-131 biodistribution is essential to correctly estimate the absorbed dose to organs and determine potential risks from both medical and hazard exposure. Many biological functions follow a circadian rhythm. Nevertheless, circadian rhythm remains an unknown factor in radionuclide biodistribution. Aim: The purpose of this study was to investigate if circadian rhythm affects I-131 biodistribution in mice and hence absorbed dose to mouse tissues. Methods: The radioactivity concentration in various tissues was studied at different time points after administration of I-131 and absorbed doses were calculated according to the MIRD formalism. The effect of circadian rhythm was studied by varying the time of administration. Male C57BL/6N mice were i.v. injected with I-131 at 8 am, 12 pm or 4 pm and killed after 1h to 7d. Results: Statistically significant difference in activity concentration and absorbed dose between the three injection series was observed for at least one time point after injection for many tissues. Highest activity concentration and absorbed dose were found in the thyroid. Conclusion: The results demonstrated that the biodistribution of I-131 in mice is influenced by the time of day of administration to a certain extent. These findings advocate that circadian rhythm should be considered in biodistribution studies and dose calculations.
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| 9. |
- Elvborn, Mikael, et al.
(author)
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The influence of biological sex on thyroid cancer treatment risk assessment
- 2016
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In: Swedish Cancer Research Meeting, Gothenburg, 2016, November 7-8.
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Conference paper (other academic/artistic)abstract
- Background: Researchers are often reluctant towards using females in studies, especially when radiopharmaceuticals and hormonally dependent diseases are concerned. Simultaneously, women are more prone to thyroid-related diseases such as Grave’s disease and Hashimoto’s thyroiditis, with a 7-10 times higher incidence than in men. The thyroid gland synthesizes iodine-containing hormones, which are needed for several cellular processes in the body. I-131 is routinely used in thyroid cancer treatment, and I-131-containing pharmaceuticals are used for treatment of patients with some neuroendocrine tumor types. This study was performed to evaluate possible differences between sexes in tissue uptake of I-131 in mice. Methods: 35 male and 35 female mice (C57BL/6N, n=5/group) were intravenously injected with I-131 at 8 am, and animals were killed 1 h to 7 d after injection. Tissue samples were collected, weighed, and measured to determine I-131 activity concentration. Results: The results indicate differences in I-131 uptake between males and females, especially in the salivary glands and kidneys. In the majority of the tissues and observed time points, statistical significant differences were found. The decrease of activity concentration in thyroid after 18 h was slower for females (statistical significant), though the obtained maximum uptake was similar. Conclusion: The I-131 uptake differs between males and females, which would result in different absorbed doses from exposure to the same amount of I-131. The difference in magnitude is tissue-dependent. The results suggest biological sex to be treated as a variable in dose calculations and risk assessments when treating cancer patients with radiopharmaceuticals containing I-131.
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| 10. |
- Forsberg, Viviane, 1981-, et al.
(author)
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Exfoliated MoS2 in Water without Additives
- 2016
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In: PLOS ONE. - : Public Library of Science (PLoS). - 1932-6203. ; 11:4
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Journal article (peer-reviewed)abstract
- Many solution processing methods of exfoliation of layered materials have been studied during the last few years; most of them are based on organic solvents or rely on surfactants andother funtionalization agents. Pure water should be an ideal solvent, however, it is generallybelieved, based on solubility theories that stable dispersions of water could not be achievedand systematic studies are lacking. Here we describe the use of water as a solvent and thestabilization process involved therein. We introduce an exfoliation method of molybdenumdisulfide (MoS2) in pure water at high concentration (i.e., 0.14±0.01 g L−1). This was achieved by thinning the bulk MoS2by mechanical exfoliation between sand papers and dis-persing it by liquid exfoliation through probe sonication in water. We observed thin MoS2nanosheets in water characterized by TEM, AFM and SEM images. The dimensions of thenanosheets were around 200 nm, the same range obtained in organic solvents. Electropho-retic mobility measurements indicated that electrical charges may be responsible for the sta-bilization of the dispersions. A probability decay equation was proposed to compare thestability of these dispersions with the ones reported in the literature. Water can be used as asolvent to disperse nanosheets and although the stability of the dispersions may not be ashigh as in organic solvents, the present method could be employed for a number of applications where the dispersions can be produced on site and organic solvents are not desirable.
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