Abstract: A method can include establishing, by a computing system, a secure electronic network connection to an electronic agent running configured to access the dataset to dynamically generate the metadata related to the dataset on a client computing system. A method can include receiving, by the computing system, from the electronic agent via the secure electronic network connection, metadata related to a dataset, the metadata comprising a plurality of attributes of the dataset and a summary of the dataset. A method can include applying a valuation model to the metadata to determine an estimated value of the dataset, the valuation model comprising a machine learning model trained using marketplace data comprising sales prices and attributes of one or more datasets, wherein the model is trained to output the sales prices of the one or more datasets. A method can include determining, an estimated value of the dataset.

Abstract: Nanoporous selective sol-gel ceramic membranes, selective-membrane structures, and related methods are described. Representative ceramic selective membranes include ion-conductive membranes (e.g., proton-conducting membranes) and gas selective membranes. Representative uses for the membranes include incorporation into fuel cells and redox flow batteries (RFB) as ion-conducting membranes.

Abstract: Nanoporous selective sol-gel ceramic membranes, selective-membrane structures, and related methods are described. Representative ceramic selective membranes include ion-conductive membranes (e.g., proton-conducting membranes) and gas selective membranes. Representative uses for the membranes include incorporation into fuel cells and redox flow batteries (RFB) as ion-conducting membranes.

Abstract: Nanoporous selective sol-gel ceramic membranes, selective-membrane structures, and related methods are described. Representative ceramic selective membranes include ion-conductive membranes (e.g., proton-conducting membranes) and gas selective membranes. Representative uses for the membranes include incorporation into fuel cells and redox flow batteries (RFB) as ion-conducting membranes.

Abstract: Nanoporous selective sol-gel ceramic membranes, selective-membrane structures, and related methods are described. Representative ceramic selective membranes include ion-conductive membranes (e.g., proton-conducting membranes) and gas selective membranes. Representative uses for the membranes include incorporation into fuel cells and redox flow batteries (RFB) as ion-conducting membranes.

Abstract: Nanoporous selective sol-gel ceramic membranes, selective-membrane structures, and related methods are described. Representative ceramic selective membranes include ion-conductive membranes (e.g., proton-conducting membranes) and gas selective membranes. Representative uses for the membranes include incorporation into fuel cells and redox flow batteries (RFB) as ion-conducting membranes.

Abstract: A method is present for transferring information in an aircraft network data processing system. A message is received from a process executing on the aircraft network data processing system for a destination to form a pending message. The pending message is received using a common protocol for processes executing in the aircraft network data processing system. A communication service is identified from a number of communication services for use in sending the message to the destination remote to the aircraft network data processing system to form a selected communication service in response to receiving the pending message. A new message is formed from the pending message. The new message has a format usable by an associated protocol for the selected communication service. The new message is sent to the destination using the selected communication service.

Abstract: A method is present for transferring information in an aircraft network data processing system. A message is received from a process executing on the aircraft network data processing system for a destination to form a pending message. The pending message is received using a common protocol for processes executing in the aircraft network data processing system. A communication service is identified from a number of communication services for use in sending the message to the destination remote to the aircraft network data processing system to form a selected communication service in response to receiving the pending message. A new message is formed from the pending message. The new message has a format usable by an associated protocol for the selected communication service. The new message is sent to the destination using the selected communication service.