Patent Number: 050362054
Section: description

According to the invention, and as is shown more particularly by way of example in FIG. 1 of the accompanying drawings, the apparatus for the transfer and in-situ reactions under a controlled atmosphere, of specimens for transmissive electron microscopy, which is essentially constituted by a cylindrical rod 1 of slight diameter comprising near one end, two grid-holders 2 and mounted slidably in a cover 3 of greater diameter provided with a sealed chamber 4 for housing the grid-holders 2 in transport position, by a traction bar 5 integrated with the end of the rod 1 of slight diameter opposite the grid-holders 2, guided in the cover 3 of greater diameter and provided at its other end with a manipulating button 6, the grid-holders 2 being advantageously arranged in a flat 8 of the end of the rod 1 and the cover 3 being advantageously formed in two parts and having a front part 3' of lesser diameter intended to penetrate into the gate of the microscope and provided with a longitudinal opening 9 corresponding at least to the section of the grid holders of the rod 1 in analysis position of this latter, is characterized in that it is provided, in addition, with a means 7 for guiding and locking in transport and analysis positions the rod 1 provided with grid holders 2, the said rod 1 being advantageously integrated by screwing with the corresponding end of the traction bar 5 which is guided in the cover 3, of which the opening 9 of the front part 3' of lesser diameter is extended, over a portion of the length of this front part 3', on both sides, by longitudinal grooves 10, the said front part 3' being connected to the rest of the cover 3 by screwing of a shouldered portion 11, a gasket 13' effecting the sealing at the level of the screwed assembly (FIGS. 1 and 3). The provision of the longitudinal grooves 10 permits a progressive placing under vacuum of the samples mounted on the grid holders 2 at the time of the sliding to analysis position of the rod 1 in the gate of the microscope. According to a characteristic of the invention, the rear part of the cover 3, near the manipulating button 6, is advantageously surrounded by a sleeve 22 delimiting a sealed chamber connected to the chamber 4 through the intermediary of a hole 19 provided in the said rear part of the cover 3, the said chamber being itself connected, through the intermediary of a tube 20, to a multi-position valve 21. The cover 3 is additionally provided, on the one hand, near its shouldered portion 11, with an external sealing gasket 12 housed in a channel 12' and intended to cooperate with the opening for passage of the gate of the microscope and, on the other hand, with an internal gasket 13 delimiting, with a gasket 14 provided at the opposite end of the cover 3, for sealing and guidance of the opposite end of the bar 5, the gasket 13' and the multi-position valve 21, situated at the end of the tube 20, perpendicular to the sleeve 22, the sealed chamber 4 (FIG. 1). The traction bar 5 is provided with the means 7 for guiding and locking in positions of transport, reaction and analysis of the rod 1, which is constituted by a guiding projection 15 cooperating with a longitudinal guiding groove 16 provided in the cover 3, this groove 16 having a right angled porotion at its ends and an intermediate portion 16' and permitting locking of the projection 15 in the position of analysis, transport and reaction of the rod 1. The intermediate portion 16' permits stopping the bar 5 in a position where it is possible to effect an evacuation of the chamber 4 through the intermediary of the gate of the microscope. The sample positioned on the grid holders 2 of the rod 1 under a controlled atmosphere in the sterile gas circulation chamber is then protected from the exterior atmosphere by retraction of the rod 1 interiorly of the sealed chamber 4 of the cover 3 by means of the traction bar 5. The apparatus is thus in a closed position permitting transport of a sample on the grids. Thanks to the multi-position valve 21, it is possible to effect, as a first step, evacuation of the sealed chamber 4 and replacement of the initial atmosphere by another atmosphere, whose nature, composition, pressure and temperature may be controlled so as to effect a reaction of this atmosphere with the sample. Such an operation may be repeated several times, so as to establish, for example, kinetics of the reaction. It is possible to cause reactive gas to circulate in the chamber 4 by maintaining the cover 3 in "pumping in the gate" position. If the reactive atmosphere is capable of attacking the gate or the pumping assembly of the microscope, it is necessary, at the end of the operation, to evacuate the chamber 4 through the intermediary of the valve 21. Locking in closed or reaction position is assured by a slight rotation of the rod 1 and thus of the bar 5 by means of the manipulating button 6, for example by 10.degree., bringing the projection 15 to the base of the right angle part of the corresponding end of the groove 16, as shown in FIG. 1A or of the intermediary portion 16'. According to another characteristic of the invention, the front part 3' of the cover 3 is provided, at its free end, with a ruby intended to cooperate with a conical female guiding part provided in the examination chamber of the microscope. Thus, the end of the of the cover 3 may be perfectly positioned in the said chamber of the microscope, in the analysis positions of the grid holders 2. According to a variant of the invention, the ruby 17 may be fixedly mounted on the conical female guiding part provided in the examination chamber of the microscope, only the rod 1 being manipulated and its centering being assured, on the one hand, by the exterior cone of the front part of the cover 3 and, on the other hand, by the cone 18 of the free end of the rod 1 cooperating with the corresponding exterior cone 18' of the cover. Thus, it is possible to effect a perfect repositioning of the sample after reaction and examination of the evolution of a given particle after variable exposure times to a reactive gas. In the case where a reaction study is not contemplated, the apparatus may thus be introduced by the front part of the cover 3 into the stage of the microscope, effecting the sealing by means of the external gasket 12. After attaining the usual degree of vacuum in the stage, the rod 1 is partially slid interiorly of the cover 3, outside of the sealed chamber 4, so as to obtain the same degree of vacuum at the level of the grid holders 2. Such an opening is effected in an intermediate position of the projection 15 in the groove 16. Thereafter, the grid holders 2 with the sample or samples are conducted into the analysis position of the rod 1 with locking in this position by slight rotation of the right angle part of the corresponding end of the groove 16, the interior door of the gate of the microscope is opened, and the assembly is lowered into the examination chamber of the microscope. Thanks to the invention, it is possible to maintain a correct vacuum, not only dynamic in the body of the microscope, but also static in the gate, permitting obtaining good working conditions. In addition, the apparatus according to the invention does not require any modification of the electron microscope itself or of the exterior dimensions of the sample holder. Finally, the sealing of the chamber housing the samples during transport and reaction being assured by internal gaskets of the apparatus, not coming in contact with the elements of the microscope, degradation of these gaskets is prevented and guiding of the apparatus interiorly of the examination chamber of the microscope may be effected without hindrance, and thus in a more precise manner. Finally, the invention permits obtaining an apparatus for transfer and in-situ reactions under a controlled atmosphere of specimens for examination by a transmissive electron microscope having a lateral inlet permitting, on the one hand, to maintain the said samples under a controlled atmosphere outside of the periods of examination in the microscope and, on the other hand, to effect in-situ reactions between a sample and a gas whose nature, composition, pressure and temperature may be controlled, the said apparatus being adaptable to all types of electron microscopes having lateral inlet without requiring any modification of the microscope or its inlets. It will be understood that the invention is not limited to the embodiment described and shown in the accompanying drawing. Modifications remain possible, especially from the point of view of the constitution of the various elements or by substitution of equivalent techniques, without departing whatsoever from the scope of protection of the invention.