Bi-Phasic Ag–In–Ga-Embedded Elastomer Inks for Digitally Printed, Ultra-Stretchable, Multi-layer Electronics by Pedro Alhais Lopes (5909537)

“…No significant change over the resistance of the ink was observed after 1000 strain cycles. Microscopic analysis shows that mixing EGaIn and Ag microflakes promotes the formation of AgIn₂ microparticles, resulting in a cohesive bi-phasic ink. …”

Bi-Phasic Ag–In–Ga-Embedded Elastomer Inks for Digitally Printed, Ultra-Stretchable, Multi-layer Electronics by Pedro Alhais Lopes (5909537)

“…No significant change over the resistance of the ink was observed after 1000 strain cycles. Microscopic analysis shows that mixing EGaIn and Ag microflakes promotes the formation of AgIn₂ microparticles, resulting in a cohesive bi-phasic ink. …”

Bi-Phasic Ag–In–Ga-Embedded Elastomer Inks for Digitally Printed, Ultra-Stretchable, Multi-layer Electronics by Pedro Alhais Lopes (5909537)

“…No significant change over the resistance of the ink was observed after 1000 strain cycles. Microscopic analysis shows that mixing EGaIn and Ag microflakes promotes the formation of AgIn₂ microparticles, resulting in a cohesive bi-phasic ink. …”

Bi-Phasic Ag–In–Ga-Embedded Elastomer Inks for Digitally Printed, Ultra-Stretchable, Multi-layer Electronics by Pedro Alhais Lopes (5909537)

“…No significant change over the resistance of the ink was observed after 1000 strain cycles. Microscopic analysis shows that mixing EGaIn and Ag microflakes promotes the formation of AgIn₂ microparticles, resulting in a cohesive bi-phasic ink. …”

Bi-Phasic Ag–In–Ga-Embedded Elastomer Inks for Digitally Printed, Ultra-Stretchable, Multi-layer Electronics by Pedro Alhais Lopes (5909537)

“…No significant change over the resistance of the ink was observed after 1000 strain cycles. Microscopic analysis shows that mixing EGaIn and Ag microflakes promotes the formation of AgIn₂ microparticles, resulting in a cohesive bi-phasic ink. …”

Bi-Phasic Ag–In–Ga-Embedded Elastomer Inks for Digitally Printed, Ultra-Stretchable, Multi-layer Electronics by Pedro Alhais Lopes (5909537)

“…No significant change over the resistance of the ink was observed after 1000 strain cycles. Microscopic analysis shows that mixing EGaIn and Ag microflakes promotes the formation of AgIn₂ microparticles, resulting in a cohesive bi-phasic ink. …”

Mitochondrial depolarization in <i>C</i>. <i>auris</i>. by Hammad Alam (530008)

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NSC population and proliferation decrease drastically during the second postnatal week of DG development. by Cristina Medina-Menéndez (21800157)

Summary statistics of δ¹³C and δ¹⁵N for end-members and consumer feeding habits. by Nathan D. McTigue (10706460)

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Results from linear regression analysis for δ¹³C or δ¹⁵N and collection date. by Nathan D. McTigue (10706460)

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Cell viability of <i>C</i>. <i>auris</i> 6057. by Hammad Alam (530008)

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<i>C</i>. <i>auris</i> cell cycle analysis. by Hammad Alam (530008)

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Distribution of stable isotope values for consumers faceted by coastscape and feeding habit. by Nathan D. McTigue (10706460)

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Distribution of stable carbon and nitrogen values for pPOM and sPOM. by Nathan D. McTigue (10706460)

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Minimum inhibitory concentrations (MIC) and minimum fungicidal concentrations (MFC) of eugenol tosylate congeners (C1-C6) against different <i>C</i>. <i>auris</i> isolates. by Hammad Alam (530008)

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Aqueous Biphasic Electrolyte Enabling Self-Adaptation of Mutually Exclusive Electrolyte Requirements for a Zn Anode and a Cathode by Jinquan Zhou (20883198)

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Mathematical treatments applied to data to correct stable isotope values for lipid content. by Nathan D. McTigue (10706460)

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Linear regressions of consumer stable carbon and nitrogen isotope values and collection date. by Nathan D. McTigue (10706460)

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The rate the bias decreases with sample duration is higher for cells with higher activity levels. by Liron Sheintuch (12078310)

TUNNEL assay representing apoptosis in <i>C</i>. <i>auris</i>. by Hammad Alam (530008)

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