Table_3_Contrasting Floristic Diversity of the Hengduan Mountains, the Himalayas and the Qinghai-Tibet Plateau Sensu Stricto in China.XLSX by Haibin Yu (1547263)

“…The Hengduan Mountains also had the most species-rich genera (10) with more than 50% of their total species diversity in China. Also, temperate genera dominated across these three regions, with a highest percentage (77.61%) within the QTP s.s. …”

Table_1_Contrasting Floristic Diversity of the Hengduan Mountains, the Himalayas and the Qinghai-Tibet Plateau Sensu Stricto in China.XLSX by Haibin Yu (1547263)

“…The Hengduan Mountains also had the most species-rich genera (10) with more than 50% of their total species diversity in China. Also, temperate genera dominated across these three regions, with a highest percentage (77.61%) within the QTP s.s. …”

Superior Hard but Quickly Reversible Si–O–Si Network Enables Scalable Fabrication of Transparent, Self-Healing, Robust, and Programmable Multifunctional Nanocomposite Coatings by Yi Hou (148620)

“…The highly cross-linked continuous network endows the coating with a hardness (<i>H</i> = 0.83 GPa) higher than those of most polymers (<i>H</i> < 0.3 GPa), while the uniformly dispersed micelles decrease the Young’s modulus (<i>E</i> = 5.89 GPa) to a value as low as that of common plastics, resulting in excellent hardness and flexibility, with an <i>H</i>/<i>E</i> of 14.1% and an elastic recovery rate (<i>W</i>_e) of 86.3%. …”

Superior Hard but Quickly Reversible Si–O–Si Network Enables Scalable Fabrication of Transparent, Self-Healing, Robust, and Programmable Multifunctional Nanocomposite Coatings by Yi Hou (148620)

“…The highly cross-linked continuous network endows the coating with a hardness (<i>H</i> = 0.83 GPa) higher than those of most polymers (<i>H</i> < 0.3 GPa), while the uniformly dispersed micelles decrease the Young’s modulus (<i>E</i> = 5.89 GPa) to a value as low as that of common plastics, resulting in excellent hardness and flexibility, with an <i>H</i>/<i>E</i> of 14.1% and an elastic recovery rate (<i>W</i>_e) of 86.3%. …”

Assessment of quality of life in type II diabetic patients using the modified diabetes quality of life (MDQoL)-17 questionnaire by Vivek Bhanubhai Prajapati (12848338)

“…As the number of complications increased, there was a decrease in the QoL. The presence of comorbidity also decreased the QoL. …”

Superior Hard but Quickly Reversible Si–O–Si Network Enables Scalable Fabrication of Transparent, Self-Healing, Robust, and Programmable Multifunctional Nanocomposite Coatings by Yi Hou (148620)

“…The highly cross-linked continuous network endows the coating with a hardness (<i>H</i> = 0.83 GPa) higher than those of most polymers (<i>H</i> < 0.3 GPa), while the uniformly dispersed micelles decrease the Young’s modulus (<i>E</i> = 5.89 GPa) to a value as low as that of common plastics, resulting in excellent hardness and flexibility, with an <i>H</i>/<i>E</i> of 14.1% and an elastic recovery rate (<i>W</i>_e) of 86.3%. …”

Superior Hard but Quickly Reversible Si–O–Si Network Enables Scalable Fabrication of Transparent, Self-Healing, Robust, and Programmable Multifunctional Nanocomposite Coatings by Yi Hou (148620)

“…The highly cross-linked continuous network endows the coating with a hardness (<i>H</i> = 0.83 GPa) higher than those of most polymers (<i>H</i> < 0.3 GPa), while the uniformly dispersed micelles decrease the Young’s modulus (<i>E</i> = 5.89 GPa) to a value as low as that of common plastics, resulting in excellent hardness and flexibility, with an <i>H</i>/<i>E</i> of 14.1% and an elastic recovery rate (<i>W</i>_e) of 86.3%. …”

Superior Hard but Quickly Reversible Si–O–Si Network Enables Scalable Fabrication of Transparent, Self-Healing, Robust, and Programmable Multifunctional Nanocomposite Coatings by Yi Hou (148620)

“…The highly cross-linked continuous network endows the coating with a hardness (<i>H</i> = 0.83 GPa) higher than those of most polymers (<i>H</i> < 0.3 GPa), while the uniformly dispersed micelles decrease the Young’s modulus (<i>E</i> = 5.89 GPa) to a value as low as that of common plastics, resulting in excellent hardness and flexibility, with an <i>H</i>/<i>E</i> of 14.1% and an elastic recovery rate (<i>W</i>_e) of 86.3%. …”

Superior Hard but Quickly Reversible Si–O–Si Network Enables Scalable Fabrication of Transparent, Self-Healing, Robust, and Programmable Multifunctional Nanocomposite Coatings by Yi Hou (148620)

“…The highly cross-linked continuous network endows the coating with a hardness (<i>H</i> = 0.83 GPa) higher than those of most polymers (<i>H</i> < 0.3 GPa), while the uniformly dispersed micelles decrease the Young’s modulus (<i>E</i> = 5.89 GPa) to a value as low as that of common plastics, resulting in excellent hardness and flexibility, with an <i>H</i>/<i>E</i> of 14.1% and an elastic recovery rate (<i>W</i>_e) of 86.3%. …”

Superior Hard but Quickly Reversible Si–O–Si Network Enables Scalable Fabrication of Transparent, Self-Healing, Robust, and Programmable Multifunctional Nanocomposite Coatings by Yi Hou (148620)

“…The highly cross-linked continuous network endows the coating with a hardness (<i>H</i> = 0.83 GPa) higher than those of most polymers (<i>H</i> < 0.3 GPa), while the uniformly dispersed micelles decrease the Young’s modulus (<i>E</i> = 5.89 GPa) to a value as low as that of common plastics, resulting in excellent hardness and flexibility, with an <i>H</i>/<i>E</i> of 14.1% and an elastic recovery rate (<i>W</i>_e) of 86.3%. …”

Regulation of macroscopic Cx46 currents by external Ca and Mg by Vytas K. Verselis (53583)

“…(A) Representative current–voltage (I-V) relationships (top) at different external Ca concentrations ranging from nominal (0 added) to 1.8 mM were obtained by applying slow (3 min) voltage ramps from +50 to −100 mV to a Cx46-expressing oocyte. …”

Superior Hard but Quickly Reversible Si–O–Si Network Enables Scalable Fabrication of Transparent, Self-Healing, Robust, and Programmable Multifunctional Nanocomposite Coatings by Yi Hou (148620)

“…The highly cross-linked continuous network endows the coating with a hardness (<i>H</i> = 0.83 GPa) higher than those of most polymers (<i>H</i> < 0.3 GPa), while the uniformly dispersed micelles decrease the Young’s modulus (<i>E</i> = 5.89 GPa) to a value as low as that of common plastics, resulting in excellent hardness and flexibility, with an <i>H</i>/<i>E</i> of 14.1% and an elastic recovery rate (<i>W</i>_e) of 86.3%. …”

Superior Hard but Quickly Reversible Si–O–Si Network Enables Scalable Fabrication of Transparent, Self-Healing, Robust, and Programmable Multifunctional Nanocomposite Coatings by Yi Hou (148620)

“…The highly cross-linked continuous network endows the coating with a hardness (<i>H</i> = 0.83 GPa) higher than those of most polymers (<i>H</i> < 0.3 GPa), while the uniformly dispersed micelles decrease the Young’s modulus (<i>E</i> = 5.89 GPa) to a value as low as that of common plastics, resulting in excellent hardness and flexibility, with an <i>H</i>/<i>E</i> of 14.1% and an elastic recovery rate (<i>W</i>_e) of 86.3%. …”

Superior Hard but Quickly Reversible Si–O–Si Network Enables Scalable Fabrication of Transparent, Self-Healing, Robust, and Programmable Multifunctional Nanocomposite Coatings by Yi Hou (148620)

“…The highly cross-linked continuous network endows the coating with a hardness (<i>H</i> = 0.83 GPa) higher than those of most polymers (<i>H</i> < 0.3 GPa), while the uniformly dispersed micelles decrease the Young’s modulus (<i>E</i> = 5.89 GPa) to a value as low as that of common plastics, resulting in excellent hardness and flexibility, with an <i>H</i>/<i>E</i> of 14.1% and an elastic recovery rate (<i>W</i>_e) of 86.3%. …”

Superior Hard but Quickly Reversible Si–O–Si Network Enables Scalable Fabrication of Transparent, Self-Healing, Robust, and Programmable Multifunctional Nanocomposite Coatings by Yi Hou (148620)

“…The highly cross-linked continuous network endows the coating with a hardness (<i>H</i> = 0.83 GPa) higher than those of most polymers (<i>H</i> < 0.3 GPa), while the uniformly dispersed micelles decrease the Young’s modulus (<i>E</i> = 5.89 GPa) to a value as low as that of common plastics, resulting in excellent hardness and flexibility, with an <i>H</i>/<i>E</i> of 14.1% and an elastic recovery rate (<i>W</i>_e) of 86.3%. …”

DataSheet_1_Processes and mechanisms of vegetation ecosystem responding to climate and ecological restoration in China.docx by Tiantian Chen (1655986)

“…Vegetation growth in China experienced an abrupt change in the 1990s and 2000s, accounting for 50% and 33.6% of the whole China respectively. Of the area before the breakpoint, 45.4% showed a trend of vegetation decrease, which was concentrated mainly in east China, while 43% of the area after the breakpoint also showed vegetation degradation, mainly in northwest China. …”

Data_Sheet_1_Robust Silica–Polyimide Aerogel Blanket for Water-Proof and Flame-Retardant Self-Floating Artificial Island.doc by Riyong Liu (10706031)

“…As a result, a remarkable decrease of 138°C is achieved using the silica blanket as the thermal insulator on a hot plate of approximately 250°C. …”

Conduction block was detected in naïve <i>Pmp22</i>+/- nerves. by Bo Hu (126105)

“…This finding demonstrated a conduction block that was defined as a ≥50% decrease of proximal CMAP amplitude over the distal CMAP amplitude, a stringent criterion used in human NCS [<a href="http://www.plosgenetics.org/article/info:doi/10.1371/journal.pgen.1006290#pgen.1006290.ref041" target="_blank">41</a>]. …”

Improving Detectability Studies in Avian Tropical Cloud Forest Communities by Kathleen E. Farley (3814234)

Mechanical and Microstructural Properties of Redispersible Polymer-Gypsum Composites by Carlos Eduardo Marmorato Gomes (6675479)