Add to ORKGThe mechanism of tuning fork-based shear-force near-field scanning optical microscopy is investigated to determine optimal experimental conditions for imaging soft samples immersed in liquid. High feedback sensitivity and stability are obtained when only the fiber probe, i.e., excluding the tuning fork prongs, is immersed in solution, which also avoids electrical shorting in conductive (i.e., buffer) solutions. Images of MEH-PPV were obtained with comparable spatial resolution in both air and water. High optical resolution (∼160 nm fwhm) was observed
We report on the novel design of the near-field scanning optical microscope (NSOM) which operates in...
The use of quartz tuning fork sensors as probes for scanning probe microscopy is growing in populari...
We report on the novel design of the near-field scanning optical microscope (NSOM) which operates in...
We present a study of the dynamic behavior of tuning forks and the application of tuning fork based ...
A resonant shift and a decrease of resonance quality of a tuning fork attached to a conventional fib...
A resonant shift and a decrease of resonance quality of a tuning fork attached to a conventional fib...
Despite the power of far-field super-resolution microscopies for three-dimensional imaging of biomol...
Despite the power of far-field super-resolution microscopies for three-dimensional imaging of biomol...
Despite the power of far-field super-resolution microscopies for three-dimensional imaging of biomol...
A resonant shift and a decrease of resonance quality of a tuning fork attached to a conventional fib...
We report on the novel design of the near-field scanning optical microscope (NSOM) which operates in...
Near-field scanning optical microscopy (NSOM) is one of the most recent scanning probe techniques. I...
Near-field scanning optical microscopy (NSOM) is a powerful technique which allows deeply subwavelen...
Many areas of cell biology have remained unexplored due to the limitations of conventional optical m...
The use of quartz tuning fork sensors as probes for scanning probe microscopy is growing in populari...
We report on the novel design of the near-field scanning optical microscope (NSOM) which operates in...
The use of quartz tuning fork sensors as probes for scanning probe microscopy is growing in populari...
We report on the novel design of the near-field scanning optical microscope (NSOM) which operates in...
We present a study of the dynamic behavior of tuning forks and the application of tuning fork based ...
A resonant shift and a decrease of resonance quality of a tuning fork attached to a conventional fib...
A resonant shift and a decrease of resonance quality of a tuning fork attached to a conventional fib...
Despite the power of far-field super-resolution microscopies for three-dimensional imaging of biomol...
Despite the power of far-field super-resolution microscopies for three-dimensional imaging of biomol...
Despite the power of far-field super-resolution microscopies for three-dimensional imaging of biomol...
A resonant shift and a decrease of resonance quality of a tuning fork attached to a conventional fib...
We report on the novel design of the near-field scanning optical microscope (NSOM) which operates in...
Near-field scanning optical microscopy (NSOM) is one of the most recent scanning probe techniques. I...
Near-field scanning optical microscopy (NSOM) is a powerful technique which allows deeply subwavelen...
Many areas of cell biology have remained unexplored due to the limitations of conventional optical m...
The use of quartz tuning fork sensors as probes for scanning probe microscopy is growing in populari...
We report on the novel design of the near-field scanning optical microscope (NSOM) which operates in...
The use of quartz tuning fork sensors as probes for scanning probe microscopy is growing in populari...
We report on the novel design of the near-field scanning optical microscope (NSOM) which operates in...