| This is RoBunsen's talk page, where you can send them messages and comments. |
|
Your submission at Articles for creation: Manganese(III) chloride has been accepted edit
Congratulations, and thank you for helping expand the scope of Wikipedia! We hope you will continue making quality contributions.
The article has been assessed as Start-Class, which is recorded on its talk page. Most new articles start out as Stub-Class or Start-Class and then attain higher grades as they develop over time. You may like to take a look at the grading scheme to see how you can improve the article.
If you have any questions, you are welcome to ask at the help desk. Once you have made at least 10 edits and had an account for at least four days, you will have the option to create articles yourself without posting a request to Articles for creation.
If you would like to help us improve this process, please consider .
Thanks again, and happy editing!
S0091 (talk) 20:30, 6 September 2022 (UTC)A cheeseburger for you! edit
|
Thanks for creating Manganese(III) chloride! ✠ SunDawn ✠ (contact) 04:08, 7 September 2022 (UTC) |
Welcome! edit
Getting StartedTutorial
Learn everything you need to know to get started.
The Teahouse
Ask questions and get help from experienced editors.
The Task Center
Learn what Wikipedians do and discover how to help.
Tips- Don't be afraid to edit! Just find something that can be improved and make it better. Other editors will help fix any mistakes you make.
- It's normal to feel a little overwhelmed, but don't worry if you don't understand everything at first—it's fine to edit using common sense.
- If an edit you make is reverted, you can discuss the issue at the article's talk page. Be civil, and don't restore the edit unless there is consensus.
- When adding new content to an article, always include a citation to a reliable source.
- If you wish to edit about a subject with which you are affiliated, read our conflict of interest guide and disclose your connection.
- Have fun! Your presence in the Wikipedia community is welcome.
Re "that a lot of the compounds derived from title compound are important catalysts..." edit
I am wondering about the remark quoted above: no (i.e., zero) compound derived from Cp*RuCl2 have been applied to anything, except niche academic work. But if you find a a commercial example, please cite it especially relying on WP:SECONDARY, our preferred ref method. Skeptically, --Smokefoot (talk) 22:46, 20 September 2022 (UTC)
- Well, I take that back. The article is a review (per WP:SECONDARY), and it makes the point that the reaction is versatile. --Smokefoot (talk) 23:42, 20 September 2022 (UTC)
- Thanks Smokefoot. Applying the logic that "things need to move beyond niche academic work" should lead us to remove this Wikipedia article all together. For instance, what role does the title compound have in society outside of niche academic science? As you noted: zero. However, we don't make this argument. If a student of organometallic chemistry wanted to learn about the important uses of this Ru(III) compound, it would be nice to know there are real down-stream synthetic applications such as in Total Synthesis. You can usually judge a compounds utility by its availability (or not) from commercial vendors. Both Sigma Aldrich and Strem carry the Cp*RuCl(COD) complex, in addition to the tetramer and other related compounds. So I respectfully disagree with your skepticism, but nonetheless am thankful for your comment. RoBunsen (talk) 13:25, 21 September 2022 (UTC)
- We can agree to disagree on details, but its a nice reference to add to that article. I hope that a student does not conclude that Cp*Ru is somehow important though. Interesting, yes but my criterion for important is that commercial products are made using a catalyst. Aldrich and Strem sell all kinds of things, may the gods bless them for doing so.--Smokefoot (talk) 14:01, 21 September 2022 (UTC)
- The use of Cp*RuCl is a new(er) field and the importance is growing; just because one is not aware of the "real-world" applications does not mean they do not exist or that it is not important. For example, Cp*Ru compounds, and CpRu compounds, are being used in pharmaceutical synthesis. Here are two papers that use Cp*Ru compounds: https://doi.org/10.1021/acsmedchemlett.8b00530, https://doi.org/10.1021/ml400175d, both of which have been cited by other pharmaceutical journals. Given that the most prominent synthesis of Cp*RuCl(COD) uses the Ru(III) Cp* as an intermediate, the title compound is an important precursor. Furthermore, the utility of Cp*Ru compounds are not just in hydrogenation. Cyclo additions, ring closings, and a few other "niche" (as you put it) applications are being explored. The edit you made is therefore incorrect. The use of CpRu compounds have been used in approved drugs (https://doi.org/10.1021/acs.jmedchem.7b00010). RoBunsen (talk) 14:47, 23 September 2022 (UTC)
- We can agree to disagree on details, but its a nice reference to add to that article. I hope that a student does not conclude that Cp*Ru is somehow important though. Interesting, yes but my criterion for important is that commercial products are made using a catalyst. Aldrich and Strem sell all kinds of things, may the gods bless them for doing so.--Smokefoot (talk) 14:01, 21 September 2022 (UTC)
MnCl3 edit
I see, its a touchy subject for you. Yikes. Most folks would be happy with its thf complex. --Smokefoot (talk) 15:40, 29 December 2022 (UTC)