There are very few situations were a singleton pattern is appropiated. You have to be sure that there is a mandatory need of one and only one instance of a class instance. Normally you don't have this design requirement, but people tend to make it up.
Connections should be released as soon as you're done with your unit of work. You should not keep a connection open forever so converting your connection to a singleton won't help to improve your application design.
Connection pooling mechanism manage the complexity for you so you don't have to worry about performance in relation to open and close connections since this is optimized by design.
Connecting to a database server typically consists of several time-consuming steps. A physical channel such as a socket or a named pipe must be established, the initial handshake with the server must occur, the connection string information must be parsed, the connection must be authenticated by the server, checks must be run for enlisting in the current transaction, and so on.
In practice, most applications use only one or a few different configurations for connections. This means that during application execution, many identical connections will be repeatedly opened and closed. To minimize the cost of opening connections, ADO.NET uses an optimization technique called connection pooling.
Connection pooling reduces the number of times that new connections must be opened. The pooler maintains ownership of the physical connection. It manages connections by keeping alive a set of active connections for each given connection configuration. Whenever a user calls Open on a connection, the pooler looks for an available connection in the pool. If a pooled connection is available, it returns it to the caller instead of opening a new connection. When the application calls Close on the connection, the pooler returns it to the pooled set of active connections instead of closing it. Once the connection is returned to the pool, it is ready to be reused on the next Open call.