sj-pdf-5-ems-10.1177_14690667241251792 - Supplemental material for Concept and simulation of a novel dual-layer linear ion trap mass analyzer for micro-electromechanical systems mass spectrometry

Supplemental material, sj-pdf-5-ems-10.1177_14690667241251792 for Concept and simulation of a novel dual-layer linear ion trap mass analyzer for micro-electromechanical systems mass spectrometry by Yupeng Cheng, Youjiang Liu, Zhangxu Wu, Chen Shen, Shan Li, Han Wang and Chilai Chen in European Journal of Mass Spectrometry</p

sj-pdf-4-ems-10.1177_14690667241251792 - Supplemental material for Concept and simulation of a novel dual-layer linear ion trap mass analyzer for micro-electromechanical systems mass spectrometry

Supplemental material, sj-pdf-4-ems-10.1177_14690667241251792 for Concept and simulation of a novel dual-layer linear ion trap mass analyzer for micro-electromechanical systems mass spectrometry by Yupeng Cheng, Youjiang Liu, Zhangxu Wu, Chen Shen, Shan Li, Han Wang and Chilai Chen in European Journal of Mass Spectrometry</p

sj-pdf-3-ems-10.1177_14690667241251792 - Supplemental material for Concept and simulation of a novel dual-layer linear ion trap mass analyzer for micro-electromechanical systems mass spectrometry

Supplemental material, sj-pdf-3-ems-10.1177_14690667241251792 for Concept and simulation of a novel dual-layer linear ion trap mass analyzer for micro-electromechanical systems mass spectrometry by Yupeng Cheng, Youjiang Liu, Zhangxu Wu, Chen Shen, Shan Li, Han Wang and Chilai Chen in European Journal of Mass Spectrometry</p

sj-pdf-2-ems-10.1177_14690667241251792 - Supplemental material for Concept and simulation of a novel dual-layer linear ion trap mass analyzer for micro-electromechanical systems mass spectrometry

Supplemental material, sj-pdf-2-ems-10.1177_14690667241251792 for Concept and simulation of a novel dual-layer linear ion trap mass analyzer for micro-electromechanical systems mass spectrometry by Yupeng Cheng, Youjiang Liu, Zhangxu Wu, Chen Shen, Shan Li, Han Wang and Chilai Chen in European Journal of Mass Spectrometry</p

sj-pdf-1-ems-10.1177_14690667241251792 - Supplemental material for Concept and simulation of a novel dual-layer linear ion trap mass analyzer for micro-electromechanical systems mass spectrometry

Supplemental material, sj-pdf-1-ems-10.1177_14690667241251792 for Concept and simulation of a novel dual-layer linear ion trap mass analyzer for micro-electromechanical systems mass spectrometry by Yupeng Cheng, Youjiang Liu, Zhangxu Wu, Chen Shen, Shan Li, Han Wang and Chilai Chen in European Journal of Mass Spectrometry</p

Upconversion Luminescence of Graphene Oxide through Hybrid Waveguide

Phonon-assisted upconversion is a promising way to generate short-wavelength emissions under excitation of long wavelength based on unique anti-Stokes luminescence properties. Graphene oxide nanosheets (GONs) exhibit excellent optical properties owing to quantum confinement and edge effects, which have driven research into fundamental principles and potential applications. Here, we experimentally demonstrate upconversion emission by exciting an easily fabricated GON hybrid waveguide (GHW) with enhanced photothermal effects. The results reveal different origins of short-wavelength range and long-wavelength range in the upconversion spectra, whereas the emissive surface defects of GONs and GHW structure play significant roles in the behavior of photoluminescence. Introducing other upconversion materials to promote emission efficiency, the hybrid waveguide system might readily provide the possibility for the construction of upconversion fiber lasers and remote control of the upconversion luminescence

Upconversion Luminescence of Graphene Oxide through Hybrid Waveguide

Phonon-assisted upconversion is a promising way to generate short-wavelength emissions under excitation of long wavelength based on unique anti-Stokes luminescence properties. Graphene oxide nanosheets (GONs) exhibit excellent optical properties owing to quantum confinement and edge effects, which have driven research into fundamental principles and potential applications. Here, we experimentally demonstrate upconversion emission by exciting an easily fabricated GON hybrid waveguide (GHW) with enhanced photothermal effects. The results reveal different origins of short-wavelength range and long-wavelength range in the upconversion spectra, whereas the emissive surface defects of GONs and GHW structure play significant roles in the behavior of photoluminescence. Introducing other upconversion materials to promote emission efficiency, the hybrid waveguide system might readily provide the possibility for the construction of upconversion fiber lasers and remote control of the upconversion luminescence