There are no open standards for special-purpose data compaction with generic linear barcodes such as Code 39 and Code 128. Most ISO/IEC-standardised 2D barcodes do support a special-purpose data encoding mechanism called Extended Channel Interpretation (ECI) which allows you to specify that data conforms to a certain application standard or encoding regime, for example ECI 298765 for IPv4 address compaction [*]. Unfortunately GUID compaction isn't amongst those that have been registered and even if it were you would nevertheless need to handle this within your application as reader support would be lacking.
That leaves you with having to pre-encode (and subsequently decode) the GUID into a format that can be handled efficiently by some ubiquitous barcode symbology.
An efficient way to store a GUID would be to convert it to a 40-digit[†] decimal representation and store the result in a Code 128 barcode using double-density numeric compression ("Mode C").
For example, consider the GUID:
Expressed as a hexadecimal number:
Converted to 40 decimal digits:
Encoded within a Code 128 barcode:
Your application would of course need to recognise this input as a decimal-encoded GUID and reverse the above process but I doubt that a significantly more efficient approach exists that doesn't require you to transform the data into an unusual radix and then deal with the complexities of handling ASCII control characters at scan time.
[*] The register of assigned ECI codes is available from the AIM store as "ECI Part 3: Register".
[†] Whilst it is possible to store the entire GUID range within 39 digits a 39-digit Mode C Code 128 symbol is in fact longer than a 40-digit symbol.