The G215S mutation decreases packaging of N and growth in primary differentiated human bronchial cells. by Hannah C. Kubinski (21213168)

Global Land Use Change Impacts on Soil Nitrogen Availability and Environmental Losses by Jing Wang (6206297)

“…However, how global land use changes impact soil N supply and potential N loss remains elusive. By compiling a global data set of 1,782 paired observations from 185 publications, we show that land use conversion from natural to managed ecosystems significantly reduced NNM by 7.5% (−11.5, −2.8%) and increased NN by 150% (86, 194%), indicating decreasing N availability while increasing potential N loss through denitrification and nitrate leaching. …”

Invention patent applications and grants in China. by Pu Miao (12886949)

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Regression results of the different number of patents. by Pu Miao (12886949)

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Data measurements. by Dongxiao Xu (5543903)

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Robustness check. by Dongxiao Xu (5543903)

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Airborne Fraction near here. by Dongxiao Xu (5543903)

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Zivot-Andrews unit root test. by Dongxiao Xu (5543903)

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ARDL results (short-term evidence). by Dongxiao Xu (5543903)

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Hatami-J test outcomes. by Dongxiao Xu (5543903)

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ARDL bounded test-using Bootstrap. by Dongxiao Xu (5543903)

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Each stages estimating procedure. by Dongxiao Xu (5543903)

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Global CO2 emission estimate near here. by Dongxiao Xu (5543903)

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Results from Diagnostic assessment. by Dongxiao Xu (5543903)

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Decreased hypotaurine levels within cells lacking the ADO gene in U251 cells. by Hong Tian (169626)

High-Temperature Resistance, Lightweight, and Thermally Insulating Silica Aerogel via Doping Hollow Silica Nanoparticles by Mingyang Yang (1405321)

“…Furthermore, at 1100 °C, thermal conductivity decreased by 34.4%, and the density was only 242 kg/m³, the lowest density among SiO₂-based aerogel composites. …”

High-Temperature Resistance, Lightweight, and Thermally Insulating Silica Aerogel via Doping Hollow Silica Nanoparticles by Mingyang Yang (1405321)

“…Furthermore, at 1100 °C, thermal conductivity decreased by 34.4%, and the density was only 242 kg/m³, the lowest density among SiO₂-based aerogel composites. …”

High-Temperature Resistance, Lightweight, and Thermally Insulating Silica Aerogel via Doping Hollow Silica Nanoparticles by Mingyang Yang (1405321)

“…Furthermore, at 1100 °C, thermal conductivity decreased by 34.4%, and the density was only 242 kg/m³, the lowest density among SiO₂-based aerogel composites. …”

High-Temperature Resistance, Lightweight, and Thermally Insulating Silica Aerogel via Doping Hollow Silica Nanoparticles by Mingyang Yang (1405321)

“…Furthermore, at 1100 °C, thermal conductivity decreased by 34.4%, and the density was only 242 kg/m³, the lowest density among SiO₂-based aerogel composites. …”

High-Temperature Resistance, Lightweight, and Thermally Insulating Silica Aerogel via Doping Hollow Silica Nanoparticles by Mingyang Yang (1405321)

“…Furthermore, at 1100 °C, thermal conductivity decreased by 34.4%, and the density was only 242 kg/m³, the lowest density among SiO₂-based aerogel composites. …”