Cu^(I)(2,9-Bis(trifluoromethyl)-1,10-phenanthroline)₂⁺ Complexes:  Correlation between Solid-State Structure and Photoluminescent Properties by Andrey Yu. Kovalevsky (2375683)

“…The 17 K lifetimes range up to 1.8 μs in the series of solids examined and, with the marked exception of the BF₄^- salt, correlate linearly with the distortion parameter ζ. The emission wavelength red-shifts with decreasing lifetime, which implies that an increased ground-state distortion is associated with a smaller energy gap.…”

Cu^(I)(2,9-Bis(trifluoromethyl)-1,10-phenanthroline)₂⁺ Complexes:  Correlation between Solid-State Structure and Photoluminescent Properties by Andrey Yu. Kovalevsky (2375683)

“…The 17 K lifetimes range up to 1.8 μs in the series of solids examined and, with the marked exception of the BF₄^- salt, correlate linearly with the distortion parameter ζ. The emission wavelength red-shifts with decreasing lifetime, which implies that an increased ground-state distortion is associated with a smaller energy gap.…”

Cu^(I)(2,9-Bis(trifluoromethyl)-1,10-phenanthroline)₂⁺ Complexes:  Correlation between Solid-State Structure and Photoluminescent Properties by Andrey Yu. Kovalevsky (2375683)

“…The 17 K lifetimes range up to 1.8 μs in the series of solids examined and, with the marked exception of the BF₄^- salt, correlate linearly with the distortion parameter ζ. The emission wavelength red-shifts with decreasing lifetime, which implies that an increased ground-state distortion is associated with a smaller energy gap.…”

Cu^(I)(2,9-Bis(trifluoromethyl)-1,10-phenanthroline)₂⁺ Complexes:  Correlation between Solid-State Structure and Photoluminescent Properties by Andrey Yu. Kovalevsky (2375683)

“…The 17 K lifetimes range up to 1.8 μs in the series of solids examined and, with the marked exception of the BF₄^- salt, correlate linearly with the distortion parameter ζ. The emission wavelength red-shifts with decreasing lifetime, which implies that an increased ground-state distortion is associated with a smaller energy gap.…”

Cu^(I)(2,9-Bis(trifluoromethyl)-1,10-phenanthroline)₂⁺ Complexes:  Correlation between Solid-State Structure and Photoluminescent Properties by Andrey Yu. Kovalevsky (2375683)

“…The 17 K lifetimes range up to 1.8 μs in the series of solids examined and, with the marked exception of the BF₄^- salt, correlate linearly with the distortion parameter ζ. The emission wavelength red-shifts with decreasing lifetime, which implies that an increased ground-state distortion is associated with a smaller energy gap.…”

Cu^(I)(2,9-Bis(trifluoromethyl)-1,10-phenanthroline)₂⁺ Complexes:  Correlation between Solid-State Structure and Photoluminescent Properties by Andrey Yu. Kovalevsky (2375683)

“…The 17 K lifetimes range up to 1.8 μs in the series of solids examined and, with the marked exception of the BF₄^- salt, correlate linearly with the distortion parameter ζ. The emission wavelength red-shifts with decreasing lifetime, which implies that an increased ground-state distortion is associated with a smaller energy gap.…”

Cu^(I)(2,9-Bis(trifluoromethyl)-1,10-phenanthroline)₂⁺ Complexes:  Correlation between Solid-State Structure and Photoluminescent Properties by Andrey Yu. Kovalevsky (2375683)

“…The 17 K lifetimes range up to 1.8 μs in the series of solids examined and, with the marked exception of the BF₄^- salt, correlate linearly with the distortion parameter ζ. The emission wavelength red-shifts with decreasing lifetime, which implies that an increased ground-state distortion is associated with a smaller energy gap.…”

DataSheet1_Effects of fertilization on litter decomposition dynamics and nutrient release in orchard systems.docx by Huayue Nie (20385747)

“…<p>Plant litter decomposition is a significant ecosystem function that regulates nutrient cycling, soil fertility, and biomass production. …”

Existence of Two Concomitant Magnetic Structures Below T_Néel for the Natrochalcite, NaFe^II₂(H₃O₂)(MoO₄)<sub>2</su... by Wassim Maalej (2117506)

“…The critical field decreases almost linearly on warming to <i>T</i>_N. …”

Pressure and Light Multi-Physics Fields Comodulate the Multi-Length Scales of Chemical Wave Propagation in Diffusion-Fed Gels by Baoying Zhang (5751821)

“…Beyond this range, the complexity of the chemical wave multi-length scales periodic structure decreases linearly on enhancing the light intensity or increasing the pressure.…”

Methionine + cystine levels for piglets from 6 to 16 kg kept under different degrees of immune system activation by Roniê Wellerson PINHEIRO (6140771)

“…Pigs from six to 16 kg, independent of immune system activation, require 0.90% of total methionine + cystine, which corresponds to a daily intake of methionine + cystine 4.44 g/day and a ratio of 58% methionine + cystine: lysine.…”

Fluorescent Hybridization Immunostaining of Individual EBV Episomes by Paolo Norio (3808)

“…One of the two stretched molecules is a PacI-linearized EBV episome (molecule above) and can be recognized by the presence of the hybridization signals. …”

Electron Tomography Reveals Porosity Degradation Spatially on Individual Pt-Based Nanocatalysts by Weiwei Xia (1586359)

“…We demonstrate that the surface area–volume ratio (SVR) of cycled porous particles decreases linearly rather than reciprocally with particle size. …”

Electron Tomography Reveals Porosity Degradation Spatially on Individual Pt-Based Nanocatalysts by Weiwei Xia (1586359)

“…We demonstrate that the surface area–volume ratio (SVR) of cycled porous particles decreases linearly rather than reciprocally with particle size. …”

Electron Tomography Reveals Porosity Degradation Spatially on Individual Pt-Based Nanocatalysts by Weiwei Xia (1586359)

“…We demonstrate that the surface area–volume ratio (SVR) of cycled porous particles decreases linearly rather than reciprocally with particle size. …”

Electron Tomography Reveals Porosity Degradation Spatially on Individual Pt-Based Nanocatalysts by Weiwei Xia (1586359)

“…We demonstrate that the surface area–volume ratio (SVR) of cycled porous particles decreases linearly rather than reciprocally with particle size. …”

Electron Tomography Reveals Porosity Degradation Spatially on Individual Pt-Based Nanocatalysts by Weiwei Xia (1586359)

“…We demonstrate that the surface area–volume ratio (SVR) of cycled porous particles decreases linearly rather than reciprocally with particle size. …”

Electron Tomography Reveals Porosity Degradation Spatially on Individual Pt-Based Nanocatalysts by Weiwei Xia (1586359)

“…We demonstrate that the surface area–volume ratio (SVR) of cycled porous particles decreases linearly rather than reciprocally with particle size. …”

Electron Tomography Reveals Porosity Degradation Spatially on Individual Pt-Based Nanocatalysts by Weiwei Xia (1586359)

“…We demonstrate that the surface area–volume ratio (SVR) of cycled porous particles decreases linearly rather than reciprocally with particle size. …”

Electron Tomography Reveals Porosity Degradation Spatially on Individual Pt-Based Nanocatalysts by Weiwei Xia (1586359)

“…We demonstrate that the surface area–volume ratio (SVR) of cycled porous particles decreases linearly rather than reciprocally with particle size. …”