Examples of 'nm can' in a sentence
Meaning of "nm can"
Nm can: This phrase may be incomplete or missing some context. It could be an abbreviation for various terms depending on the context in which it is used, such as 'No matter,' 'Not much,' or 'New Mexico.'
How to use "nm can" in a sentence
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nm can
Layer thickness down to 5 nm can be readily produced.
For example, ultraviolet radiation having a wavelength ranging from 10 to 390 nm can be used.
A size less than about 2 nm can provide better performance.
A BOX layer with a thickness for example in the order of 145 nm can be provided.
A device with dimensions of about 70 nm can be easily obtained in an industrial way.
According to the invention process, sizes as small as 500 nm can be obtained.
Resolution as low as 10 nm can be achieved using this technique.
In this way a window electrode having a thickness of less than 120 nm can therefore be achieved.
The peak at 780 nm can be easily detected with an appropriate detection system.
For both these types of bacteria, particles of approximately 2 nm can pass through the peptidoglycan.
Wavelengths of less than 550 nM can cause a photochemical injury similar to sunburn.
Lateral resolutions of down to 60 nm can be achieved.
Infrared wavelengths longer than 750 nm can produce changes in the lens of the eye.
Particles with the size down to 10 nm can be produced.
As a result, the optical density at 490 nm can sometimes be overestimated and the cytotoxicity underestimated.
See also
A porous nanoparticle with a minimum pore size of 10 nm can be loaded thrombin.
The change in the absorbance at 340 nm can be measured spectrophotometrically.
Nanoparticles with particle sizes ranging from about 2 nm to about 400 nm can be economically produced.
The light with wavelength under 270 nm can then removed by use of a filter.
In particular, the region starting from 500 nm can be covered.
Wires with a diameter of 10 to 50 nm can be produced by this technique.
For both Gram-positive and Gram-negative bacteria, particles of approximately 2 nm can pass through the peptidoglycan.
Also, the accessible depth of 300 nm can be achieved using this technique.
Thus, thickness differences below 10 nm can be obtained.
The associative inputs of all neurons N1 to Nm can be simply connected in parallel.
In aqueous filtrate, proteinaceous material absorbance at 280 nm can be measured to determine mAb concentrations.
Nanoparticles with sizes ranging form 2 to 750 nm can be economically produced.
A diode array detector set at 210 nm can be used as the detector.
For particular uses, a value of less than 150 nm can be particularly preferred.
Molecules with absorption features near 1064 nm can provide resonance enhancement.
For example X relatively narrow wavelength ranges e.g. < 1 nm can be provided see also Fig . 5.
