【摘 要】
:
Novel fluorescent nanoparticles(FNPs) based on aggregation-induced emission(AIE) fluorogens are expected to generate new medical diagnostic techniques in biomedical and biological areas for their supe
【机 构】
:
Laboratory of Bio-Inspired Smart Interface Science,Technical Institute of Physics and Chemistry,Chin
【出 处】
:
The 2nd International Symposium on Aggregation-Induced Emiss
论文部分内容阅读
Novel fluorescent nanoparticles(FNPs) based on aggregation-induced emission(AIE) fluorogens are expected to generate new medical diagnostic techniques in biomedical and biological areas for their superior brightness and photostability compared with conventional molecular probes including small organic dyes and fluorescent proteins.
其他文献
A series of cationic conjugated polyelectrolytes containing tetraphenylethene(TPE) group have been synthesized and they exhibit aggregation-enhanced emission(AEE) features,either by adding non-solvent
Fluorescent probes possessing aggregation-induced emission(AIE) property have attracted great attentions from both fundamental research and practical application due to the advantages of high signal/n
In recent years,the multi-colour luminescent materials have drawn much attention due to their potential applications in flexible full-colour displays and next-generation lighting sources.Furthermore,w
Boron diketonate is one of simple and robust complexes with boron and is a versatile building block for preparing functional optical materials(Scheme 1).However,similarly to other fluorescent molecule
Molecules exhibiting both photoactivatable characteristics and strong fluorescence without aggregation-caused quenching(ACQ) are attractive due to their potential applications as functional solid mate
High performance organic luminogens have attracted a great deal of attention by researchers during the last two decades and great efforts have been devoted to the development in organic light-emitting
Graphene,1,2 a two-dimensional(2D) material,has drawn world-wide attention and demonstrated extraordinary promise in nanoelectronics,optical limiters,biosensors,supercapacitors,and polymer nanocomposi
Chemical changes of the molecular structure and regulation of aggregation state structure could affect/alter the chemical and physical properties of materials,which is an important means of the develo
Despite the promising prospect,the design and synthesis of luminescent liquid crystals is still challenging:traditional organic luminescent materials usually suffer the notorious aggregation-caused qu
Room temperature phosphorescence(RTP) has aroused extensive interests because of its unique photophysical processes and promising applications in organic light-emitting diodes,chemical and biological