Fluorescence Recognition(형광 인식)란 무엇입니까?
Fluorescence Recognition 형광 인식 - Moreover, the fluorescence recognition mechanisms were explored from both internal filter effect (IFE) and photo-induced electron transfer (PET) viewpoints. [1] We also realized the fluorescence recognition in liquid and solid media under optimal conditions based on the internal filtration effect (IFE). [2] 8) and the origin of the specificity of the fluorescence recognition was disclosed through 1H NMR spectra, UV–Vis spectra, ESI mass spectra, X-ray single crystal diffraction and DFT calculations. [3] The UV-Vis and fluorescent spectra, IR, NMR, and density functional theory (DFT) calculations indicate that the recognition mechanism for quenching the fluorescence of the HL sensor for Cu 2+ is a photoinduced electron transfer process (PET) between the recognition group (phenolic hydroxyl group and Schiff-base group) of the sensor and the signal reporter group (benzene ring), and the enhanced fluorescence recognition mechanism of the HL sensor for Zn 2+ is of its hindered PET process. [4] β-cyclodextrin cross-linked polymer was prepared with pyromellitic anhydride as a cross-linker and acted for the facile fluorescence recognition. [5] The chemosensor QN as dual chemosensor showed selective fluorescence recognition of Al3+ and colorimetric detection of Fe2+. [6] A photoluminescent sea urchin-like carbon nanobranched polymer has been prepared and applied for sensitive fluorescence recognition of hypochlorite. [7] The “Turn-On” fluorescence recognition for H2S was evaluated both in aqueous solution and cells. [8] Its selective fluorescence recognition for Hg2+ ions was found. [9] The fluorescence recognition of cancer was achieved by overexpressing GSH in cancer, meanwhile the photothermal therapy from CPs and chemotherapy from AgNPs jointly produced an enhanced therapeutic effect. [10] Interestingly, after being ripened, this colloid could be converted into stable MOG with the AIEE performance inherited, which also shown good fluorescence recognition ability and excellent reusability for the visual colorimetric PA detection. [11] The results of cell fluorescence imaging showed that GQDs-PEG could enter the whole cell with high fluorescence recognition. [12] An arylboronate derivative has been investigated as a chemospecific fluorescence recognition agent for H2O2. [13]또한, 내부 필터 효과(IFE) 및 광유도 전자 전달(PET) 관점에서 형광 인식 메커니즘을 탐구했습니다. [1] 또한 내부 여과 효과(IFE)를 기반으로 최적의 조건에서 액체 및 고체 매체에서 형광 인식을 실현했습니다. [2] 8) 형광 인식 특이성의 기원은 1H NMR 스펙트럼, UV-Vis 스펙트럼, ESI 질량 스펙트럼, X선 단결정 회절 및 DFT 계산을 통해 밝혀졌다. [3] UV-Vis 및 형광 스펙트럼, IR, NMR 및 밀도 기능 이론(DFT) 계산은 Cu 2+에 대한 HL 센서의 형광을 소멸시키는 인식 메커니즘이 인식 그룹 간의 광유도 전자 전달 과정(PET)임을 나타냅니다. 센서의 (페놀성 수산기 및 쉬프-염기 그룹) 및 신호 리포터 그룹(벤젠 고리) 및 Zn 2+에 대한 HL 센서의 향상된 형광 인식 메커니즘은 장애 PET 공정입니다. [4] β-시클로덱스트린 가교 중합체는 가교제로 피로멜리트산 무수물을 사용하여 제조하고 용이한 형광 인식을 위해 작용하였다. [5] 이중 화학 센서인 QN 화학 센서는 Al3+의 선택적 형광 인식과 Fe2+의 비색 검출을 보여주었습니다. [6] 차아염소산염의 민감한 형광 인식을 위해 광발광 성게와 같은 탄소 나노분지형 폴리머가 준비되어 적용되었습니다. [7] nan [8] nan [9] nan [10] nan [11] nan [12] nan [13]
Selective Fluorescence Recognition
The chemosensor QN as dual chemosensor showed selective fluorescence recognition of Al3+ and colorimetric detection of Fe2+. [1] Its selective fluorescence recognition for Hg2+ ions was found. [2]이중 화학 센서인 QN 화학 센서는 Al3+의 선택적 형광 인식과 Fe2+의 비색 검출을 보여주었습니다. [1] nan [2]
fluorescence recognition mechanism
Moreover, the fluorescence recognition mechanisms were explored from both internal filter effect (IFE) and photo-induced electron transfer (PET) viewpoints. [1] The UV-Vis and fluorescent spectra, IR, NMR, and density functional theory (DFT) calculations indicate that the recognition mechanism for quenching the fluorescence of the HL sensor for Cu 2+ is a photoinduced electron transfer process (PET) between the recognition group (phenolic hydroxyl group and Schiff-base group) of the sensor and the signal reporter group (benzene ring), and the enhanced fluorescence recognition mechanism of the HL sensor for Zn 2+ is of its hindered PET process. [2]또한, 내부 필터 효과(IFE) 및 광유도 전자 전달(PET) 관점에서 형광 인식 메커니즘을 탐구했습니다. [1] UV-Vis 및 형광 스펙트럼, IR, NMR 및 밀도 기능 이론(DFT) 계산은 Cu 2+에 대한 HL 센서의 형광을 소멸시키는 인식 메커니즘이 인식 그룹 간의 광유도 전자 전달 과정(PET)임을 나타냅니다. 센서의 (페놀성 수산기 및 쉬프-염기 그룹) 및 신호 리포터 그룹(벤젠 고리) 및 Zn 2+에 대한 HL 센서의 향상된 형광 인식 메커니즘은 장애 PET 공정입니다. [2]