2024
Single-Mode Control and Individual Nanoparticle Detection in the Ultraviolet Region Based on Boron Nitride Microdisk with Whispering Gallery Mode
Li J, Li Q, Chen R, Zhang Q, Fang W, Liu K, Li F, Yun F. Single-Mode Control and Individual Nanoparticle Detection in the Ultraviolet Region Based on Boron Nitride Microdisk with Whispering Gallery Mode. Nanomaterials 2024, 14: 501. PMID: 38535649, PMCID: PMC10975174, DOI: 10.3390/nano14060501.Peer-Reviewed Original ResearchWhispering gallery modesMicrodisk cavitiesOptical microcavitiesGallery modesBoron nitrideResonant modesUltraviolet regionLight-matter interactionSingle-mode outputNonlinear opticsSingle-modeUltraviolet bandMicrodiskUltraviolet spectraSingle-mode controlMicrocavitiesPrecision sensitivityResonanceNanoparticle detectionBoronMicroresonatorsModeAbsorption propertiesTime-domain (FDTD) methodFinite-difference time-domain (FDTD) method
2017
Facile, Large-Scale, and Expeditious Synthesis of Hollow Co and Co@Fe Nanostructures: Application for Electromagnetic Wave Absorption
Yang P, Zhao X, Liu Y, Gu Y. Facile, Large-Scale, and Expeditious Synthesis of Hollow Co and Co@Fe Nanostructures: Application for Electromagnetic Wave Absorption. The Journal Of Physical Chemistry C 2017, 121: 8557-8568. DOI: 10.1021/acs.jpcc.6b11284.Peer-Reviewed Original ResearchCo nanospheresGalvanic cell reactionCo nanochainsWave absorptionEM wave absorption propertiesMethod of electroless platingCo nanostructuresEM wave absorptionWave absorption propertiesElectromagnetic wave absorptionRatio of fillersSynthesize hollow nanostructuresElectroless platingReflection lossHollow nanostructuresFiller contentMetallic materialsControl structureEffective bandwidthHollow CoFillerNanospheresAbsorption propertiesNanostructuresExcellent performance
2016
Tuning the Protein‐Induced Absorption Shifts of Retinal in Engineered Rhodopsin Mimics
Suomivuori C, Lang L, Sundholm D, Gamiz‐Hernandez A, Kaila V. Tuning the Protein‐Induced Absorption Shifts of Retinal in Engineered Rhodopsin Mimics. Chemistry - A European Journal 2016, 22: 8254-8261. PMID: 27120137, DOI: 10.1002/chem.201505126.Peer-Reviewed Original ResearchConceptsExcited state energy levelsQuantum chemical calculationsStructure of chromophoresElectronic structure of chromophoresAmount of charge transferState energy levelsIn silico mutationsChemical calculationsSchiff-baseCharge transferRhodopsin mimicAbsorption shiftElectronic structureRational designElectrostatic effectsEnergy levelsVisible spectrumChromophoreAbsorption propertiesInfrared regionNative chemicalHuman cellular retinol-binding proteinB-iononeBiological environmentHCRBPII
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