Boxplot comparing Ct values for HD in flies and clothes. by Philippe Ndzomo (17706039)

S1 Data. Bibliometric analysis. S2 Data. Estrogen level analysis. S3 Data. MicroCT quantification. S4 Data. Markers of bone metabolism. by Yan She (8639796)

Innovation and night light in large and small cities. by Saul Estrin (8629173)

Estimated mean values for light interception. by Torsten Schober (20485754)

Skin marks is the S1 Fig title. by Mercedes Soto-González (20422078)

Image1_Sinusoidal LED light recipes can improve rocket edible biomass and reduce electricity costs in indoor growth environments.pdf by John D. Stamford (15243814)

“…Here we have adapted light recipes to gradually increase and decrease in intensity to take account of these findings. …”

Image1_Sinusoidal LED light recipes can improve rocket edible biomass and reduce electricity costs in indoor growth environments.pdf by John D. Stamford (15243814)

“…Here we have adapted light recipes to gradually increase and decrease in intensity to take account of these findings. …”

Anionic Lipids Regulate the Light-Harvesting Complex 1‑Reaction Center Photocycle in Purple Bacteria by Olivia C. Fiebig (22295231)

“…Photosynthetic purple bacteria can capture and convert sunlight with a remarkable, nearly 100% quantum efficiency. The light-harvesting complex 1-reaction center (LH1-RC) core complex is the membrane complex fundamentally responsible for solar energy conversion. …”

Colored Gold Ions Enabled High-Transparent and Low-Haze Cellulose Films with Excellent Flame-Retardant and UV to Blue Light-Blocking Performance by Qiu Fu (10830823)

“…It is still a great challenge for materials to achieve efficient filtering of UV and HEBL while maintaining low haze and high transmittance. Herein, we reported a facile and green process for fabricating biodegradable and flexible gold ion (Au³⁺)-coordinated cellulose-based light filters with diverse UV- and HEBL-screening capacities via adsorption of Au³⁺. …”

Colored Gold Ions Enabled High-Transparent and Low-Haze Cellulose Films with Excellent Flame-Retardant and UV to Blue Light-Blocking Performance by Qiu Fu (10830823)

“…It is still a great challenge for materials to achieve efficient filtering of UV and HEBL while maintaining low haze and high transmittance. Herein, we reported a facile and green process for fabricating biodegradable and flexible gold ion (Au³⁺)-coordinated cellulose-based light filters with diverse UV- and HEBL-screening capacities via adsorption of Au³⁺. …”

Colored Gold Ions Enabled High-Transparent and Low-Haze Cellulose Films with Excellent Flame-Retardant and UV to Blue Light-Blocking Performance by Qiu Fu (10830823)

“…It is still a great challenge for materials to achieve efficient filtering of UV and HEBL while maintaining low haze and high transmittance. Herein, we reported a facile and green process for fabricating biodegradable and flexible gold ion (Au³⁺)-coordinated cellulose-based light filters with diverse UV- and HEBL-screening capacities via adsorption of Au³⁺. …”

Colored Gold Ions Enabled High-Transparent and Low-Haze Cellulose Films with Excellent Flame-Retardant and UV to Blue Light-Blocking Performance by Qiu Fu (10830823)

“…It is still a great challenge for materials to achieve efficient filtering of UV and HEBL while maintaining low haze and high transmittance. Herein, we reported a facile and green process for fabricating biodegradable and flexible gold ion (Au³⁺)-coordinated cellulose-based light filters with diverse UV- and HEBL-screening capacities via adsorption of Au³⁺. …”

Age-Dependent Impacts of Lighting Conditions on Contrast Sensitivity and Subjective Visual Perception Focusing on Pupil Size and Crystalline Lens Transmittance by Taisuke Eto (17892397)

“…The six lighting conditions used were a combination of three illuminances (100, 300, and 750 lx) and two CCTs (3000 and 6000 K). …”

NASA TLX results of Task 1 for (a) low-intensity light, (b) out of vision hands and (c) self occlusion error. by Mucahit Gemici (21519313)

DataSheet1_Lowering the target daily light integrals following days with excessive lighting can reduce lettuce production costs.docx by Andres M. Mayorga-Gomez (20407556)

“…We measured plant growth rate, final fresh and dry weights, leaf number, leaf area, specific leaf area, light use efficiency, and relative pigment content to assess differences in plant growth under the different lighting regimes. …”

Cataract induction does not affect hunting behaviour in optimal light conditions (left panels) but causes impairments in challenging light environments (right panels). by Amartya T. Mitra (14043115)

“…Similarly, under bright and UV light, we did not detect differences in hunting success (E,G; <i>n</i>_{<i>control</i>} = 12, <i>n</i>_{<i>lens3RNAi </i>}= 23, <i>p</i>_horizontal = 0.28, <i>p</i>_vertical = 0.23), but observed a weak (nonsignificant) decrease in the hunting success of treatment individuals under dim white light (F,H; <i>n</i>_{<i>control</i>} = 13, <i>n</i>_{<i>lens3RNAi </i>}= 22, <i>p</i>_horizontal = 0.22, <i>p</i>_vertical = 0.42).…”

The associations of the flat ultrasonic calls with 3 other USV call types as well as with 11 behaviors recorded over early (1–3) and late (4–6) days of the light-to-dark transition... by Piotr Popik (292215)

DataSheet1_The interactive effects between far-red light and temperature on lettuce growth and morphology diminish at high light intensity.docx by Sang Jun Jeong (20350183)

“…We concluded that the interactive effects between FR light and temperature on plant growth and morphology diminished as total light intensity increased. …”

The significant decrease in GLT-1 levels observed in the nucleus accumbens of rats that had consumed morphine for fifty-six days was completely reversed by the co-administration of... by María Elena Quintanilla (8068691)

Data Sheet 1_Dose-response of tomato fruit yield to far-red fraction in supplementary lighting.docx by Elena Vincenzi (15444443)

“…Finally, additional FR had a minimal effect on fruit quality and shelf-life. We conclude that adding FR to supplementary lighting can increase tomato fruit yield linearly up to an FR fraction of 0.40, while at higher FR fractions, further increases in FR have limited or even negative effects on yield and decrease radiation and electricity use efficiency.…”