Method 1: Remove apps using LaunchpadĪnother manual way to delete Sqlectron apps from your Mac is using the Launchpad.
To completely uninstall a program on MacBook/iMac, you have to choose one of the options on below. Removing Sqlectron apps is more than just moving them to the Trash - it’s completely uninstalling them. When you’re done installing the application, it’s a good idea to unmount the DMG in Finder. But Applications is the most convenient place to put things, so we suggest you just put everything there.ĭMG files are mounted by your system, like a sort of virtual hard drive. Some people create a “Games” directory, to keep games separate from other applications. You don’t have to put your programs in the Applications folder, though: they’ll run from anywhere.
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Most Mac OS applications downloaded from outside the App Store come inside a DMG file. Converted a few components to pure functions and hooks.Added inspect context button for development.Started to convert the project to typescript.The sqlectron-core module has been merged into this package to make development easier and faster, it still using sqlectron-db-core though for the database part.Added more test coverage, now we have e2e and unit tests for a few scenarios.Removed all remote calls and moved it to the browser process and communication between them is done with pure IPC calls.
Upgraded a few dependencies, the most important of them was the electron upgrade to the latest v12 version.Fixed ssh private key connections for new open ssh format keysĭeveloper (Most of the changes were internal changes):.Added option to use ssh connections with ssh agent.It is an open source project and any kind of contribution is welcome. The real-time applicability of PNPD has been analysed by taking honey as an example, and a detection limit of 0.206 v% and quantitation limit of 0.624 v% have been found.Sqlectron is a simple and lightweight SQL client desktop/terminal with cross database and platform support. Also, we have developed a method for quantitative detection of water content in organic solvents by fluorescence studies. The findings revealed that PNPD can detect water in polar, non-polar, protic, and aprotic solvents, with detection limit and quantitation limit preferring polar aprotic solvent ACN and dioxane in both higher and lower water content. The approach can be used with any solvents and instruments, making it a quick, cost-effective, sensitive, and selective water sensing technique. A normalised approach was also developed to address the lack of knowledge in the quantitative detection of water content in an unknown sample. It displayed a relative error percentage of less than x☐.5 % for the percentage detection of water content with noticeable DL and QL as compared to the reported works. PNPD showed a cyan-blue emission in the presence of water content due to cleavage of the imine bond, thus giving back the emission of pyrene carboxaldehyde. It could be used as a rapid, low-cost, selective, and sensitive chemodosimetric probe to detect water content. A one-step condensation procedure in the presence of green solvent EtOH was used to make a pyrene-based fluorescent sensor (PNPD).