Dear Ypo, I also think that the org-bibtex format is pretty close to what you are looking for. An added benefit could be that the org-cite CSL export processor has recently gained (admittedly rather experimental) support for directly using org-bibtex bibliographies, although insert and follow functionality is missing at the moment.
best wishes, András On Tue, 19 Oct 2021 at 15:23, Ihor Radchenko <yanta...@gmail.com> wrote: > > Ypo <ypun...@gmail.com> writes: > > > I have a .bib file with references, and a .org file with annotations. Like: > > ... > > Could I write on the .bib file using the orgmode power? Something like > > this could work as a .bib file, or is it a no-no? > > M-x org-bibtex (you need a special format for Org headings). org-bibtex > is a part of ol-bibtex.el. > > Also, I wrote a set of helpers to capture bibliographic data into Org > mode headings: https://github.com/yantar92/org-capture-ref > > The format is something like: > > ******* DONE [#A] Nix [Scripta Materialia] (1998) Yielding and strain > hardening of thin metal films on substrates :FLAGGED:BOOKMARK:article:ATTACH: > SCHEDULED: <2021-03-08 Mon> > :PROPERTIES: > :TITLE: Yielding and strain hardening of thin metal films on substrates > :BTYPE: article > :AUTHOR: Nix, William D > :JOURNAL: Scripta Materialia > :VOLUME: 39 > :NUMBER: 4-5 > :PAGES: 545-554 > :YEAR: 1998 > :URL: > https://scholar.googleusercontent.com/scholar.bib?q=info:sVHrZR2RlwsJ:scholar.google.com/&output=citation&scisdr=CgXarAaXEL216MPM490:AAGBfm0AAAAAYD3J-917MgTBuwvpZNL09BcZoHmF8au_&scisig=AAGBfm0AAAAAYD3J-ytYquMZbiTcC-Jxg3itxnjKSZfQ&scisf=4&ct=citation&cd=-1&hl=en > :CREATED: [2021-03-02 Tue 13:25] > :HOWPUBLISHED: Scholar.Googleusercontent > :NOTE: Online; accessed 02 March 2021 > :PUBLISHER: Pergamon > :ID: 2c5b442a-c8fa-43d2-86f0-c160b496eb4d > :Effort: 0:05 > :SHOWFROMDATE: 2021-03-08 > :END: > > #CLS #dislocation #misfit #theory > > - !! [2021-03-09 Tue] [[id:5cc9cea1-a023-4cc8-9753-277dc474850b][Pant Acta > 2003]] showed that the hypothesised dislocation/misfit interaction does not > actually happen (at least, in (111) FCC films) > - Yet, the shape of the dislocation upon interaction with the misfit is > still a "bump", thus general derivation by Nix is still not too terrible. > *The Nix's model just overestimate the hardening* > > This headings exports to > > @article{2c5b442a-c8fa-43d2-86f0-c160b496eb4d, > author={Nix, William D}, > title={Yielding and strain hardening of thin metal films on substrates}, > journal={Scripta Materialia}, > year={1998}, > volume={39}, > number={4-5}, > pages={545-554}, > note={Online; accessed 02 March 2021} > } > > Hope it helps. > > Best, > Ihor > >
