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Letter to the editor regarding the article, "Type of cycle, temperament and childhood trauma are associated with lithium response in patients with bipolar disorders".
Int J Bipolar Disord
January 2025
Department of Psychiatry, Texas Tech University Health Science Center at Permian Basin, Midland, TX, USA.
Neural signatures of risk-taking adaptions across health, bipolar disorder, and lithium treatment.
Mol Psychiatry
January 2025
Department of Psychiatry, University of Oxford, Oxford, UK.
Cognitive and neural mechanisms underlying bipolar disorder (BD) and its treatment are still poorly understood. Here we examined the role of adaptations in risk-taking using a reward-guided decision-making task. We recruited volunteers with high (n = 40) scores on the Mood Disorder Questionnaire, MDQ, suspected of high risk for bipolar disorder and those with low-risk scores (n = 37).
View Article and Find Full Text PDFPhysical scaling for predicting shear viscosity and memory effects of lithium-ion battery cathode slurries.
Soft Matter
January 2025
Department of Chemical and Biological Engineering, Northwestern University, Evanston, IL, 60208, USA.
Lithium-ion battery cathodes are manufactured by coating slurries, liquid suspensions that typically include carbon black (CB), active material, and polymer binder. These slurries have a yield stress and complex rheology due to CB's microstructural response to flow. While optimizing the formulation and processing of slurries is critical to manufacturing defect-free and high-performance cathodes, engineering the shear rheology of cathode slurries remains challenging.
View Article and Find Full Text PDFA high-performance polarization stabilizer is highly desirable for many fields, such as optical communication, optical remote sensing, and optical measurement systems. It should simultaneously feature high tracking speed, compact size, low insertion loss, and low cost. Here, we experimentally demonstrate an integrated polarization stabilizer based on thin-film lithium niobate (TFLN) photonics and look-up table (LUT) method.
View Article and Find Full Text PDFFast-Charging Lithium-Ion Batteries Enabled by Magnetically Aligned Electrodes.
ACS Nano
January 2025
Materials Science and Engineering Program and Walker Department of Mechanical Engineering, The University of Texas at Austin, Austin, Texas 78712, United States.
With the increasing popularity of electric transportation over the past several years, fast-charging lithium-ion batteries are highly demanded for shortening electric vehicles' charging time. Extensive efforts have been made on material development and electrode engineering; however, few of them are scalable and cost-effective enough to be potentially incorporated into the current battery production. Here, we propose a facile magnetic templating method for preparing LiFePO (LFP) cathodes with vertically aligned graphene sheets to realize fast-charging properties at a practical loading of 20 mg cm.
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