Fig 9(b) in the straight-line fitting results. by Zhezhe Zhang (19704587)

“…Under the same <i>JRC</i>, σ_<i>i</i> increases with the increase of τ₁, and Δσ_n decreases with the increasing τ₁. Under the same <i>JRC</i> and σ_<i>i</i>, τ_<i>i</i> is significantly smaller under the UNLCSL path than the CNL path. …”

Specimen packaging process. by Zhezhe Zhang (19704587)

“…Under the same <i>JRC</i>, σ_<i>i</i> increases with the increase of τ₁, and Δσ_n decreases with the increasing τ₁. Under the same <i>JRC</i> and σ_<i>i</i>, τ_<i>i</i> is significantly smaller under the UNLCSL path than the CNL path. …”

Relationship between τ_<i>i</i> and σ_<i>i</i>. by Zhezhe Zhang (19704587)

“…Under the same <i>JRC</i>, σ_<i>i</i> increases with the increase of τ₁, and Δσ_n decreases with the increasing τ₁. Under the same <i>JRC</i> and σ_<i>i</i>, τ_<i>i</i> is significantly smaller under the UNLCSL path than the CNL path. …”

The relationship between Δσ_n and τ₁, <i>JRC</i>. by Zhezhe Zhang (19704587)

“…Under the same <i>JRC</i>, σ_<i>i</i> increases with the increase of τ₁, and Δσ_n decreases with the increasing τ₁. Under the same <i>JRC</i> and σ_<i>i</i>, τ_<i>i</i> is significantly smaller under the UNLCSL path than the CNL path. …”

Relationship between τ_<i>i</i> and σ_<i>i</i>. by Zhezhe Zhang (19704587)

“…Under the same <i>JRC</i>, σ_<i>i</i> increases with the increase of τ₁, and Δσ_n decreases with the increasing τ₁. Under the same <i>JRC</i> and σ_<i>i</i>, τ_<i>i</i> is significantly smaller under the UNLCSL path than the CNL path. …”

IKK KO in microglia leads to increased accumulation of PK-resistant PrP <i>in vitro</i> but decreased accumulation <i>in vivo.</i> by Arielle J. D. Hay (15456341)

Influencing factors of APCA. by Wenping Ning (19871091)

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Temporal trends in APCA. by Wenping Ning (19871091)

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Traditional Markov transfer probability matrices. by Wenping Ning (19871091)

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Spatial Markov transfer probability matrix. by Wenping Ning (19871091)

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Three-dimensional kernel density of APCA. by Wenping Ning (19871091)

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Table 6 - Gain and loss: Human and environmental wellbeing – drivers of Kilimanjaro’s decreasing biodiversity by Andreas Hemp (730415)

HDECO: A method for Decreasing energy and cost by using virtual machine migration by considering hybrid parameters by Arash GhorbanniaDelavar (22563696)

“…<h2>Summary</h2><p dir="ltr">This research introduces <b>HDECO</b> (Hybrid Decreasing Energy and Cost Optimization) — a method designed to reduce both energy consumption and execution cost in cloud datacenters through intelligent virtual machine migration. …”

Inactivation of MnuA and 5′-NT reduced bacterial fitness and virulence of <i>M</i>. <i>bovis</i> PG45 in mammary glands. by Aga E. Gelgie (17661720)

DALY and HLY in Portugal, 1990–2019. The first graph shows a decreasing trend of DALY and the second graph shows an increasing trend of HLY. by Aida Isabel Tavares (12080156)

A prepubertal CD decreases hepatic lipid accumulation in adulthood despite a chronic HFD in Sprague-Dawley male rats. by Ana Aguilar-Lozano (20614619)

Expression of proteins significantly correlated with stereotypy severity in CD1 Mice (n = 28). by Kendall M. Coden (18516237)

Shematic representation for the mechanism of the swelling pressure: (a)soil without added fiber; (b)soil with added fiber. by Yonggang Huang (223155)

A Novel Type of PSMA-Targeting Ligands via β‑Branched Aromatic α‑Amino Acid Modification, Bearing Enhanced Tumor Targeting and Reduced Renal Toxicity by Zong-Xiao Liu (22177765)

“…With average renal uptake of less than 10%ID/g, as opposed to 25%ID/g for [⁶⁸Ga]Ga-<b>PSMA-617</b>, this substantial decrease in renal accumulation translates to a significantly improved safety profile by minimizing nephrotoxic risks. …”

A Novel Type of PSMA-Targeting Ligands via β‑Branched Aromatic α‑Amino Acid Modification, Bearing Enhanced Tumor Targeting and Reduced Renal Toxicity by Zong-Xiao Liu (22177765)

“…With average renal uptake of less than 10%ID/g, as opposed to 25%ID/g for [⁶⁸Ga]Ga-<b>PSMA-617</b>, this substantial decrease in renal accumulation translates to a significantly improved safety profile by minimizing nephrotoxic risks. …”