Yan Guo scite author profile

Electrical devices generate heat at work. The heat should be transferred away immediately by a thermal manager to keep proper functions, especially for high-frequency apparatuses. Besides high thermal conductivity (K), the thermal manager material requires good foldability for the next generation flexible electronics. Unfortunately, metals have satisfactory ductility but inferior K (≤429 W m K ), and highly thermal-conductive nonmetallic materials are generally brittle. Therefore, fabricating a foldable macroscopic material with a prominent K is still under challenge. This study solves the problem by folding atomic thin graphene into microfolds. The debris-free giant graphene sheets endow graphene film (GF) with a high K of 1940 ± 113 W m K . Simultaneously, the microfolds render GF superflexible with a high fracture elongation up to 16%, enabling it more than 6000 cycles of ultimate folding. The large-area multifunctional GFs can be easily integrated into high-power flexible devices for highly efficient thermal management.

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Significant Improvements in CO₂ Capture by Pyridine‐Containing Anion‐Functionalized Ionic Liquids through Multiple‐Site Cooperative Interactions

Luo

et al. 2014

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A strategy for improving CO2 capture by new anion-functionalized ionic liquids (ILs) making use of multiple site cooperative interactions is reported. An extremely high capacity of up to 1.60 mol CO2 per mol IL and excellent reversibility were achieved by introducing a nitrogen-based interacting site on the phenolate and imidazolate anion. Quantum-chemical calculations, spectroscopic investigations, and calorimetric data demonstrated that multiple-site cooperative interactions between two kinds of interacting sites in the anion and CO2 resulted in superior CO2 capacities, which originated from the π-electron delocalization in the pyridine ring.

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Parameter Optimization and Field Validation of the Functional–Structural Model GREENLAB for Maize

Guo¹,

Ma²,

Zhan³

et al. 2006

177

178

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Multi-fitting against several target files obtained at different growth stages gave better parameter accuracy than single fitting at maturity only, and permitted extracting generic organ expansion kinetics from the static observations. The 2000 model gave excellent predictions of plant architecture and vegetative growth for the other three seasons having different temperature regimes, but predictions of inter-seasonal variability of biomass partitioning during grain filling were less accurate. This was probably due to insufficient consideration of processes governing cob sink size and terminal leaf senescence. Further perspectives for model improvement are discussed.

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Dynamic monitoring of NDVI in wheat agronomy and breeding trials using an unmanned aerial vehicle

Duan

Chapman

Guo

et al. 2017

Field Crops Research

235

153

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Highly efficient SO2 capture by dual functionalized ionic liquids through a combination of chemical and physical absorption

et al. 2012

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Yan Guo

Ultrahigh Thermal Conductive yet Superflexible Graphene Films

Significant Improvements in CO₂ Capture by Pyridine‐Containing Anion‐Functionalized Ionic Liquids through Multiple‐Site Cooperative Interactions

Parameter Optimization and Field Validation of the Functional–Structural Model GREENLAB for Maize

Dynamic monitoring of NDVI in wheat agronomy and breeding trials using an unmanned aerial vehicle

Highly efficient SO2 capture by dual functionalized ionic liquids through a combination of chemical and physical absorption

Contact Info

Product

Resources

About

Yan Guo

Ultrahigh Thermal Conductive yet Superflexible Graphene Films

Significant Improvements in CO2 Capture by Pyridine‐Containing Anion‐Functionalized Ionic Liquids through Multiple‐Site Cooperative Interactions

Parameter Optimization and Field Validation of the Functional–Structural Model GREENLAB for Maize

Dynamic monitoring of NDVI in wheat agronomy and breeding trials using an unmanned aerial vehicle

Highly efficient SO2 capture by dual functionalized ionic liquids through a combination of chemical and physical absorption

Contact Info

Product

Resources

About

Significant Improvements in CO₂ Capture by Pyridine‐Containing Anion‐Functionalized Ionic Liquids through Multiple‐Site Cooperative Interactions