Characteristics of study participants during baseline and end-line survey periods, 2022. by Gizachew Tadele Tiruneh (8407686)

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Implementation strategies for PSBI treatment when a referral is not possible. by Gizachew Tadele Tiruneh (8407686)

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Comparison of VO₂ max (ml/kg/min) between the DM and HC. by Uzair Abbas (18517982)

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Characteristics of study participants. by Uzair Abbas (18517982)

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Association of VO₂ max with glycemic control and years of DM onset. by Uzair Abbas (18517982)

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Map with the correlation between gene expression and ALE-derived gray matter increase of each cluster. by Alessia Camasio (14185864)

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Patient characteristics. by Kayoko Ito (3187233)

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Database. by Kayoko Ito (3187233)

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Connectivity between the left nucleus accumbens and two clusters. by Karel Joineau (21799908)

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Design of the protocol. by Karel Joineau (21799908)

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Fig 1 - by Amina Moustaqim-Barrette (9367948)

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Pro-labour gene expression in the tissues. by Natasha Singh (9706948)

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Real-Time TEM Study of Nanopore Evolution in Battery Materials and Their Suppression for Enhanced Cycling Performance by Qianqian Li (386223)

“…Battery materials, which store energy by combining mechanisms of intercalation, conversion, and alloying, provide promisingly high energy density but usually suffer from fast capacity decay due to the drastic volume change upon cycling. Particularly, the significant volume shrinkage upon mass (Li⁺, Na⁺, etc.) extraction inevitably leads to the formation of pores in materials and their final pulverization after cycling. …”

Real-Time TEM Study of Nanopore Evolution in Battery Materials and Their Suppression for Enhanced Cycling Performance by Qianqian Li (386223)

“…Battery materials, which store energy by combining mechanisms of intercalation, conversion, and alloying, provide promisingly high energy density but usually suffer from fast capacity decay due to the drastic volume change upon cycling. Particularly, the significant volume shrinkage upon mass (Li⁺, Na⁺, etc.) extraction inevitably leads to the formation of pores in materials and their final pulverization after cycling. …”

Real-Time TEM Study of Nanopore Evolution in Battery Materials and Their Suppression for Enhanced Cycling Performance by Qianqian Li (386223)

“…Battery materials, which store energy by combining mechanisms of intercalation, conversion, and alloying, provide promisingly high energy density but usually suffer from fast capacity decay due to the drastic volume change upon cycling. Particularly, the significant volume shrinkage upon mass (Li⁺, Na⁺, etc.) extraction inevitably leads to the formation of pores in materials and their final pulverization after cycling. …”

Real-Time TEM Study of Nanopore Evolution in Battery Materials and Their Suppression for Enhanced Cycling Performance by Qianqian Li (386223)

“…Battery materials, which store energy by combining mechanisms of intercalation, conversion, and alloying, provide promisingly high energy density but usually suffer from fast capacity decay due to the drastic volume change upon cycling. Particularly, the significant volume shrinkage upon mass (Li⁺, Na⁺, etc.) extraction inevitably leads to the formation of pores in materials and their final pulverization after cycling. …”

Real-Time TEM Study of Nanopore Evolution in Battery Materials and Their Suppression for Enhanced Cycling Performance by Qianqian Li (386223)

“…Battery materials, which store energy by combining mechanisms of intercalation, conversion, and alloying, provide promisingly high energy density but usually suffer from fast capacity decay due to the drastic volume change upon cycling. Particularly, the significant volume shrinkage upon mass (Li⁺, Na⁺, etc.) extraction inevitably leads to the formation of pores in materials and their final pulverization after cycling. …”

Real-Time TEM Study of Nanopore Evolution in Battery Materials and Their Suppression for Enhanced Cycling Performance by Qianqian Li (386223)

“…Battery materials, which store energy by combining mechanisms of intercalation, conversion, and alloying, provide promisingly high energy density but usually suffer from fast capacity decay due to the drastic volume change upon cycling. Particularly, the significant volume shrinkage upon mass (Li⁺, Na⁺, etc.) extraction inevitably leads to the formation of pores in materials and their final pulverization after cycling. …”

Chromo-Fluorogenic Sensing of Fe(III), Cu(II), and Hg(II) Using a Redox-Mediated Macromolecular Ratiometric Sensor by Mousumi Deb (5095181)

“…The alteration of −C(O)N(CH₃)₂ to −C(−O^–)N⁺(CH₃)₂ and significant decrease in bond order of −CN are explored through spectroscopic, computational, and photophysical studies. …”

Chromo-Fluorogenic Sensing of Fe(III), Cu(II), and Hg(II) Using a Redox-Mediated Macromolecular Ratiometric Sensor by Mousumi Deb (5095181)

“…The alteration of −C(O)N(CH₃)₂ to −C(−O^–)N⁺(CH₃)₂ and significant decrease in bond order of −CN are explored through spectroscopic, computational, and photophysical studies. …”