PEM is more or less a wrapper format. It uses header and footers to indicate start and end of base 64 x509 (DER) encoded certificates. So if you can add an X509 certificate it should be very easy to add one that is "PEM encoded". PEM is adding an ASCII armor, i.e. it can be interpreted as text.
You can use
openssl command line to convert a certificate from PEM to DER and vice versa:
openssl x509 -in certificate.pem -outform DER -out certificate.der
You can then store the certificate in the kernel, which seems to treat the key as a BLOB of data.
It seems you can store the key in any binary format. So if you don't want to use certificates then you could encode your public key in some standard format. For public keys that is usually
SubjectPublicKey which is the public key part within an X5.09 certificate.
To convert just the public key (from a public or private key) use:
openssl rsa -in private.pem -pubout -outform DER -out public.der
If you want to store the absolute minimum, easy to handle key then you could just store the modulus as big endian unsigned integer (of exactly the key size), and set the public exponent statically to the value
010001 (in hex). This is mostly useful if you don't have the DER encoding routines available in your application.
Make sure that your key is stored as "permanent" key in the kernel though otherwise it will still expire.