Durable seamless replication tools are disclosed for replication of seamless relief patterns in desired media, for example in optical recording or data storage media. Methods of making such durable replication tools are disclosed, including preparing a recording substrate on the inner surface of a support cylinder, recording and developing a relief pattern in the substrate, creating a durable negative relief replica of the pattern, extracting the resulting durable tool sleeve from a processing cell, and mounting the tool sleeve on a mounting fixture. Apparatus are disclosed for fabricating such seamless replication tools, including systems for recording a desired relief pattern on a photosensitive layer on an inner surface of a support cylinder. Also disclosed are electrodeposition cells for forming a durable tool sleeve having a desired relief pattern. The replication tool relief features may have critical dimensions down to the micron and nanometer regime.

A portable electroplating system with components integrated into a complete system, rather than separated and disjointed. A single electroplating system can be self-contained to include all necessary rectifiers, tanks, cleaning functionalities, and other helpful or necessary items. By using smaller components than conventional electroplating systems, the system can allow for more economical use of chemicals, solutions, and energy and can be utilized more efficiently towards a unique shape or size of object to be plated. The system can also include wheels to make the system portable. A rack management system can be employed to move objects from one location to another within the system.

A portable electroplating system with components integrated into a complete system, rather than separated and disjointed. A single electroplating system can be self-contained to include all necessary rectifiers, tanks, cleaning functionalities, and other helpful or necessary items. By using smaller components than conventional electroplating systems, the system can allow for more economical use of chemicals, solutions, and energy and can be utilized more efficiently towards a unique shape or size of object to be plated. The system can also include wheels to make the system portable. A rack management system can be employed to move objects from one location to another within the system.

A portable electroplating system with components integrated into a complete system, rather than separated and disjointed. A single electroplating system can be self-contained to include all necessary rectifiers, tanks, cleaning functionalities, and other helpful or necessary items. By using smaller components than conventional electroplating systems, the system can allow for more economical use of chemicals, solutions, and energy and can be utilized more efficiently towards a unique shape or size of object to be plated. The system can also include wheels to make the system portable. A rack management system can be employed to move objects from one location to another within the system.

A portable electroplating system with components integrated into a complete system, rather than separated and disjointed. A single electroplating system can be self-contained to include all necessary rectifiers, tanks, cleaning functionalities, and other helpful or necessary items. By using smaller components than conventional electroplating systems, the system can allow for more economical use of chemicals, solutions, and energy and can be utilized more efficiently towards a unique shape or size of object to be plated. The system can also include wheels to make the system portable. A rack management system can be employed to move objects from one location to another within the system.

A concentration of a dissolved gas can be controlled by following an electroplating solution through a contactor, controlling a pressure within the contactor, and thereby maintaining the concentration of the dissolved gas in the electroplating solution within a first concentration range. The first concentration range is non-zero and sub-saturation.

A film formation apparatus includes an anode, a solid electrolyte membrane between the anode and a substrate, a power supply that applies voltage between the anode and the substrate as a cathode, and a liquid reservoir that holds the anode and the solid electrolyte membrane while separating them apart from each other, the liquid reservoir storing electrolyte solution including metal ions between the anode and the solid electrolyte membrane. The solid electrolyte membrane includes a central portion that comes in contact with the substrate and the electrolyte solution, and an outer edge portion outside the central portion. The apparatus includes a membrane tensioning mechanism to apply a tensile force to the central portion toward the outer edge portion while storing the heated electrolyte solution in the liquid reservoir, to elongate the central portion.

A film formation apparatus includes an anode, a solid electrolyte membrane between the anode and a substrate, a power supply that applies voltage between the anode and the substrate as a cathode, and a liquid reservoir that holds the anode and the solid electrolyte membrane while separating them apart from each other, the liquid reservoir storing electrolyte solution including metal ions between the anode and the solid electrolyte membrane. The solid electrolyte membrane includes a central portion that comes in contact with the substrate and the electrolyte solution, and an outer edge portion outside the central portion. The apparatus includes a membrane tensioning mechanism to apply a tensile force to the central portion toward the outer edge portion while storing the heated electrolyte solution in the liquid reservoir, to elongate the central portion.

A portable electroplating system with components integrated into a complete system, rather than separated and disjointed. A single electroplating system can be self-contained to include all necessary rectifiers, tanks, cleaning functionalities, and other helpful or necessary items. By using smaller components than conventional electroplating systems, the system can allow for more economical use of chemicals, solutions, and energy and can be utilized more efficiently towards a unique shape or size of object to be plated. The system can also include wheels to make the system portable. A rack management system can be employed to move objects from one location to another within the system.

A portable electroplating system with components integrated into a complete system, rather than separated and disjointed. A single electroplating system can be self-contained to include all necessary rectifiers, tanks, cleaning functionalities, and other helpful or necessary items. By using smaller components than conventional electroplating systems, the system can allow for more economical use of chemicals, solutions, and energy and can be utilized more efficiently towards a unique shape or size of object to be plated. The system can also include wheels to make the system portable. A rack management system can be employed to move objects from one location to another within the system.