Jun Ge scite author profile

We propose a novel physical mechanism for breaking the diffraction barrier in the far field. Termed fluorescence emission difference microscopy (FED), our approach is based on the intensity difference between two differently acquired images. When fluorescence saturation is applied, the resolving ability of FED can be further enhanced. A detailed theoretical analysis and a series of simulation tests are performed. The validity of FED in practical use is demonstrated by experiments on fluorescent nanoparticles and biological cells in which a spatial resolution of <λ/4 is achieved. Featuring the potential to realize a high imaging speed, this approach may be widely applied in nanoscale investigations.

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Expedition 354 methods

France‐Lanord¹,

Spieß²,

Klaus³

et al. 2016

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From microscopy to nanoscopy via visible light

Hao

Kuang

et al. 2013

Light Sci Appl

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The resolution of conventional optical equipment is always restricted by the diffraction limit, and improving on this was previously considered improbable. Optical super-resolution imaging, which has recently experienced rapid growth and attracted increasing global interest, will result in applications in many domains, benefiting fields such as biology, medicine and material research. This review discusses the contributions of different researchers who identified the diffractive barrier and attempted to realize optical super-resolution. This is followed by a personal viewpoint of the development of optical nanoscopy in recent decades and the road towards the next generation of optical nanoscopy.

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Ozone treatment ameliorates oil sands process water toxicity to the mammalian immune system

García‐García

Oladiran

et al. 2011

Water Research

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Jun Ge

Breaking the Diffraction Barrier Using Fluorescence Emission Difference Microscopy

Expedition 354 methods

From microscopy to nanoscopy via visible light

Ozone treatment ameliorates oil sands process water toxicity to the mammalian immune system

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