Country music singer/songwriter Raleigh Keegan new song and second single ‘My Love To Lexington’ to be out of the 25th February, 2022 off his debut album, yet to be released.
“Secrets out – new jam coming on Friday – presave at the link in my bio! Get ready….are you starting to see a theme for this new project??? #lexington #lexingtonky” Keegan posted.
Album which name is yet to be known to is about to shook the entire country and music lovers, as the first two songs are living testimonies to. First single from this unknown said to be great album, “New To Nashville” was released back in January 28th which is pretty much doing well on digi-platforms, @thenashnews named the song among five “on the verge” country releases from independent artists.
Thank you to @thenashnews for calling my new single “New to Nashville” an on the verge song to watch 👀 https://t.co/JigkTNBIkb
— Raleigh Keegan (@raleighkeegan) February 15, 2022
In February the single first week the single “New to Nashville” was added to Spotify’s #Freshfindcountrys playlist, and raleigh can’t be much happier as Spotify happens to be his favourite streaming platform.
“Thank you @spotify for adding my new single “New to Nashville” to fresh finds country. I happen to ♥️ Spotify and am grateful for their support on the new music.”
Now, I guess you might start to “see a theme for the project based on the first 2 songs????” Raleigh is much excited about this project than any anything his have done thus far, “That’s because I have been pouring out my heart onto a new project.”
“The song is about my “home” – Lexington, Kentucky. No, I’m not from there…..I’m from Ohio, but when I moved to Lexington I really feel like I found home.The horses, the bourbon, the rivers, the mountains, and most of all the people were so special to me that I wrote this song.” Raleigh wrote.
The announcement for the release of ‘My Love To Lexington‘ also spark a fan frenzy as music lovers can’t wait for both the new album and his single released. They flood his comment section with their reactions below:
