The presently disclosed subject matter provides systems and methods for generating nanostructures from tribological films. A probe tip can be immersed in a liquid mixture comprising a plurality of ink particles suspended in a medium. A substrate on which the tribological film is to be generated can also be immersed in the liquid mixture. A processor controlling movement of the probe tip can be configured to cause the probe tip to slide along the substrate in a shape of a desired pattern of the nanostructure with a contact force to cause one or more ink particles of the plurality of ink particles compressed underneath the probe tip to be transformed into a tribological film onto the substrate in the shape of the desired pattern of the nanostructure.

The presently disclosed subject matter provides systems and methods for generating nanostructures from tribological films. A probe tip can be immersed in a liquid mixture comprising a plurality of ink particles suspended in a medium. A substrate on which the tribological film is to be generated can also be immersed in the liquid mixture. A processor controlling movement of the probe tip can be configured to cause the probe tip to slide along the substrate in a shape of a desired pattern of the nanostructure with a contact force to cause one or more ink particles of the plurality of ink particles compressed underneath the probe tip to be transformed into a tribological film onto the substrate in the shape of the desired pattern of the nanostructure.

A liquid cell for in situ atomic force microscopy (AFM) measurement of a sample during filtration is provided. The liquid cell includes a cantilever probe; a cantilever holder to position the probe near a surface of a sample (e.g., a filtration membrane); a liquid cell housing provided to hold the sample and comprising an opening at the top; an upper part; a lower part; an internal cavity to contain a fluid; a fluid inlet passage located in the upper part; a first fluid outlet passage located in the upper part; and a second fluid outlet passage located in the lower part. A method of in situ atomic force microscopy (AFM) measurement of a sample during filtration in a liquid by using the liquid cell described herein is also provided.

A liquid cell for in situ atomic force microscopy (AFM) measurement of a sample during filtration is provided. The liquid cell includes a cantilever probe; a cantilever holder to position the probe near a surface of a sample (e.g., a filtration membrane); a liquid cell housing provided to hold the sample and comprising an opening at the top; an upper part; a lower part; an internal cavity to contain a fluid; a fluid inlet passage located in the upper part; a first fluid outlet passage located in the upper part; and a second fluid outlet passage located in the lower part. A method of in situ atomic force microscopy (AFM) measurement of a sample during filtration in a liquid by using the liquid cell described herein is also provided.

Articles and methods related to scanning probe microscopy probes are generally provided. A scanning probe microscopy probe may comprise a chip, a mechanical resonator attached to the chip, a tip attached to the mechanical resonator, and a handle attached to the chip. The handle may have a length of at least 5 mm and an average thickness of less than or equal to 500 microns. The probe may further comprise an insulating coating covering both the chip and the handle.

Articles and methods related to scanning probe microscopy probes are generally provided. A scanning probe microscopy probe may comprise a chip, a mechanical resonator attached to the chip, a tip attached to the mechanical resonator, and a handle attached to the chip. The handle may have a length of at least 5 mm and an average thickness of less than or equal to 500 microns. The probe may further comprise an insulating coating covering both the chip and the handle.

The invention relates to a top-cover for a controlled environmental system (CES) for use with a measurement technique that requires introducing a probe to a sample placed on a sample holder, a CES and a procedure to control the environment for a sample in a system in particular a CES during a measurement with a probe based technique.

The invention relates to a top-cover for a controlled environmental system (CES) for use with a measurement technique that requires introducing a probe to a sample placed on a sample holder, a CES and a procedure to control the environment for a sample in a system in particular a CES during a measurement with a probe based technique.

A probe for atomic force microscopy comprises a tip for atomic force microscopy oriented in a direction referred to as the longitudinal direction and protrudes from an edge of a substrate in the longitudinal direction, wherein the tip is arranged at one end of a shuttle attached to the substrate at least via a first and via a second structure, which structures are referred to as support structures, at least the first support structure being a flexible structure, extending in a direction referred to as the transverse direction, perpendicular to the longitudinal direction and anchored to the substrate by at least one mechanical linkage in the transverse direction, the support structures being suitable for allowing the shuttle to be displaced in the longitudinal direction. An atomic force microscope comprising at least one such probe is also provided.

A probe for atomic force microscopy comprises a tip for atomic force microscopy oriented in a direction referred to as the longitudinal direction and protrudes from an edge of a substrate in the longitudinal direction, wherein the tip is arranged at one end of a shuttle attached to the substrate at least via a first and via a second structure, which structures are referred to as support structures, at least the first support structure being a flexible structure, extending in a direction referred to as the transverse direction, perpendicular to the longitudinal direction and anchored to the substrate by at least one mechanical linkage in the transverse direction, the support structures being suitable for allowing the shuttle to be displaced in the longitudinal direction. An atomic force microscope comprising at least one such probe is also provided.