The embodiments described herein can be used in a variety of sample retrieval, grasping, cutting, and manipulating operations. In some embodiments, an apparatus includes an elongated member and a retention member movably coupled to the elongated member. The elongated member includes a cutting portion configured to cut a target sample when moved, and defines an internal volume within which at least a portion of the target sample can be received. The retention member includes an engagement portion configured to move between a first position and a second position when the retention member is actuated. The engagement portion is configured to extend within the internal volume to exert a force on the target sample within the internal volume when the engagement portion is in the second position.

A sampling device for obtaining a material sample from a surface is provided. The sampling device comprises a housing (4) defining a cavity (6) for forming an at least semi-enclosed space adjacent a surface; an extraction conduit in communication with the cavity for extracting a material sample from the surface; an input interface arranged to receive light from a first direction (A); and an optical subsystem. The optical subsystem is located at least partially within the housing and is arranged to direct light from the input interface to be output through the cavity in a second direction that is substantially perpendicular to the first direction (A), to ablate a material sample from the surface.

A sampling device for obtaining a material sample from a surface is provided. The sampling device comprises a housing (4) defining a cavity (6) for forming an at least semi-enclosed space adjacent a surface; an extraction conduit in communication with the cavity for extracting a material sample from the surface; an input interface arranged to receive light from a first direction (A); and an optical subsystem. The optical subsystem is located at least partially within the housing and is arranged to direct light from the input interface to be output through the cavity in a second direction that is substantially perpendicular to the first direction (A), to ablate a material sample from the surface.

A tool device has a deceleration unit, a tip tool, and a reaction bar. The deceleration unit increases a torque that is input to the deceleration unit. The tip tool is rotated when receiving a motive force from the deceleration unit. The reaction bar is fixed to the deceleration unit. An external force can be made to act on the reaction bar to receive a reaction force that is generated during rotation of the tip tool.

Methods, systems, and apparatus, including computer programs encoded on a computer storage medium, for detecting seepage of hydrocarbons in subterranean zones. In one aspect, a method includes detecting hydrocarbon seepage at multiple different sampling depths from a surface in a surveyed geographic region, comparing each of the hydrocarbon seepage at the multiple different sampling depths, wherein hydrocarbon seepage at a reference depth is known, and determining hydrocarbon seepage through the surveyed geographic region based on a result of the comparison.

Methods, systems, and apparatus, including computer programs encoded on a computer storage medium, for detecting seepage of hydrocarbons in subterranean zones. In one aspect, a method includes detecting hydrocarbon seepage at multiple different sampling depths from a surface in a surveyed geographic region, comparing each of the hydrocarbon seepage at the multiple different sampling depths, wherein hydrocarbon seepage at a reference depth is known, and determining hydrocarbon seepage through the surveyed geographic region based on a result of the comparison.

A sample collection device is composed of a conductive polymer. The conductive polymer includes a mixture of carbon nanotubes and a polymer. The sample collection device has a hole at a tip of the sample collection device with the hole having a size ranging from about 0.15 mm to about 0.25 mm.

A sample collection device is composed of a conductive polymer. The conductive polymer includes a mixture of carbon nanotubes and a polymer. The sample collection device has a hole at a tip of the sample collection device with the hole having a size ranging from about 0.15 mm to about 0.25 mm.

Some embodiments are directed to a dissection tool for mechanical removal of biological material from a tissue sample on a planar substrate, such a glass slide including a platform for supporting the glass slide and a positioning system configured to move the dissection tool and platform relative to each other and control their relative positions. The dissection tool has a longitudinal axis and is arranged at an oblique angle relative to the platform and a thin-walled gouging head that has a base portion. The gouging head includes opposing side portions which extend from the base portion in a direction away from the glass slide and which at least partly enclose a cavity within the gouging head for receiving biological material that is dissected when relative movement between the platform and the dissection tool causes a front face of the gouging head to gouge a track though the tissue sample.

Some embodiments are directed to a dissection tool for mechanical removal of biological material from a tissue sample on a planar substrate, such a glass slide including a platform for supporting the glass slide and a positioning system configured to move the dissection tool and platform relative to each other and control their relative positions. The dissection tool has a longitudinal axis and is arranged at an oblique angle relative to the platform and a thin-walled gouging head that has a base portion. The gouging head includes opposing side portions which extend from the base portion in a direction away from the glass slide and which at least partly enclose a cavity within the gouging head for receiving biological material that is dissected when relative movement between the platform and the dissection tool causes a front face of the gouging head to gouge a track though the tissue sample.