Bending moment in the tension zone. by Maogang Tian (21485116)

“…The outer ring of inclined piles in the VIPF significantly enhances structural stiffness through spatial synergy, achieving uniform load distribution and effective redistribution of pile-body internal forces. …”

Sketch of forces on vertical and inclined piles. by Maogang Tian (21485116)

“…The outer ring of inclined piles in the VIPF significantly enhances structural stiffness through spatial synergy, achieving uniform load distribution and effective redistribution of pile-body internal forces. …”

Displacement cloud maps. by Maogang Tian (21485116)

“…The outer ring of inclined piles in the VIPF significantly enhances structural stiffness through spatial synergy, achieving uniform load distribution and effective redistribution of pile-body internal forces. …”

Morphing mesh. by Maogang Tian (21485116)

“…The outer ring of inclined piles in the VIPF significantly enhances structural stiffness through spatial synergy, achieving uniform load distribution and effective redistribution of pile-body internal forces. …”

Bending moment in the pressure zone. by Maogang Tian (21485116)

“…The outer ring of inclined piles in the VIPF significantly enhances structural stiffness through spatial synergy, achieving uniform load distribution and effective redistribution of pile-body internal forces. …”

Axial forces in the tension zone. by Maogang Tian (21485116)

“…The outer ring of inclined piles in the VIPF significantly enhances structural stiffness through spatial synergy, achieving uniform load distribution and effective redistribution of pile-body internal forces. …”

VPF and VIPF. by Maogang Tian (21485116)

“…The outer ring of inclined piles in the VIPF significantly enhances structural stiffness through spatial synergy, achieving uniform load distribution and effective redistribution of pile-body internal forces. …”

MXene-Coated Liquid Metal Nanodroplet Aggregates by Mason Zadan (8667870)

“…In contrast to silicone-based composites containing LM droplets or MXene nanosheets alone, these MXene-LM-silicone-based composites exhibit an exponential increase in thermal and electrical conductivity with decreasing interfacial thickness with significantly lower LM volume fractions (25 vol %) while avoiding LM rupture and bleed-out. …”

MXene-Coated Liquid Metal Nanodroplet Aggregates by Mason Zadan (8667870)

“…In contrast to silicone-based composites containing LM droplets or MXene nanosheets alone, these MXene-LM-silicone-based composites exhibit an exponential increase in thermal and electrical conductivity with decreasing interfacial thickness with significantly lower LM volume fractions (25 vol %) while avoiding LM rupture and bleed-out. …”

Baseline characteristics of the participants. by Junichi Kushioka (12236447)

“…<div><p>Locomotive Syndrome (LS) is defined by decreased walking and standing abilities due to musculoskeletal issues. …”

Internal validation by cross-validation. by Junichi Kushioka (12236447)

“…<div><p>Locomotive Syndrome (LS) is defined by decreased walking and standing abilities due to musculoskeletal issues. …”

MXene-Coated Liquid Metal Nanodroplet Aggregates by Mason Zadan (8667870)

“…In contrast to silicone-based composites containing LM droplets or MXene nanosheets alone, these MXene-LM-silicone-based composites exhibit an exponential increase in thermal and electrical conductivity with decreasing interfacial thickness with significantly lower LM volume fractions (25 vol %) while avoiding LM rupture and bleed-out. …”

Data used to generate Fig 1. by Pattamaporn Kittayapong (289542)

“…For wild-type <i>Ae. aegypti</i>, X-ray irradiation at the doses from 3 Gy decreased the development of the first-instar larvae and increased the development of the third-instar larvae but there was no effect on pupae. …”

Data used to generate Table 6. by Pattamaporn Kittayapong (289542)

“…For wild-type <i>Ae. aegypti</i>, X-ray irradiation at the doses from 3 Gy decreased the development of the first-instar larvae and increased the development of the third-instar larvae but there was no effect on pupae. …”

Data used to generate Table 2. by Pattamaporn Kittayapong (289542)

“…For wild-type <i>Ae. aegypti</i>, X-ray irradiation at the doses from 3 Gy decreased the development of the first-instar larvae and increased the development of the third-instar larvae but there was no effect on pupae. …”

Data used to generate Fig 3. by Pattamaporn Kittayapong (289542)

“…For wild-type <i>Ae. aegypti</i>, X-ray irradiation at the doses from 3 Gy decreased the development of the first-instar larvae and increased the development of the third-instar larvae but there was no effect on pupae. …”

Data used to generate Fig 5. by Pattamaporn Kittayapong (289542)

“…For wild-type <i>Ae. aegypti</i>, X-ray irradiation at the doses from 3 Gy decreased the development of the first-instar larvae and increased the development of the third-instar larvae but there was no effect on pupae. …”

Data used to generate Fig 2. by Pattamaporn Kittayapong (289542)

“…For wild-type <i>Ae. aegypti</i>, X-ray irradiation at the doses from 3 Gy decreased the development of the first-instar larvae and increased the development of the third-instar larvae but there was no effect on pupae. …”

Data used to generate Fig 6. by Pattamaporn Kittayapong (289542)

“…For wild-type <i>Ae. aegypti</i>, X-ray irradiation at the doses from 3 Gy decreased the development of the first-instar larvae and increased the development of the third-instar larvae but there was no effect on pupae. …”

Data used to generate Fig 4. by Pattamaporn Kittayapong (289542)

“…For wild-type <i>Ae. aegypti</i>, X-ray irradiation at the doses from 3 Gy decreased the development of the first-instar larvae and increased the development of the third-instar larvae but there was no effect on pupae. …”