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For many people today is St. Patrick's Day but for me it is the birthday of my friend's OC that she made in high school and also the day representing the numerical version of his ship name with my OC 😌
#licl#i have been working on coloring that recent drawing i did of them but i had to stop to do a delivery shift#you wouldn't believe the hourly bonuses my gig app was offering for lithi's birthday!
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COMPLETELY FORGOT AND MISSED THIS SERIES OF HEADSHOTS FROM THE END OF 2018 (right after i would have quit tumblr before)
i was setting up toyhou.se profiles for them and needed better pics !!!
all of these are originally chemistry 'verse characters!
lithi (lithium), mistral (aluminium), drey (hydrogen), gen (oxygen), reyhe (hydrogen), aaren (argon), niie (iodine), dmitri (rubidium), and riou (fluorine)
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Moth accent release go! Not much to say about these but they went through so many sketches and editing before i went "yeah these look good". Lithium Chloride Flames is the top one while Static Whispers is the bottom one. Both are somehow accents and are 550g. The usual, reblog will have the thread.
#flight rising#my post#flight rising skins#fr skins and accents#flight rising skins and accents#LiCl flames is based on the actual flame itself lol#im becoming a master on somehow accidentally getting into the accent coverage range#will there be recolors? maybe idk we'll see#not a fan of the space for aether f but at least i got something
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In honor of season 5 I present:
The Samadhi Fire: Chemistry Analysis
The Samadhi Fire has dark red flames, which are obviously only supposed to show us how incredibly hot and inextinguishable they are, but as a chemistry nerd I feel obliged to look more into it.
The Basics
In nature, Red flames are most commonly produced by burning of Lithium (Li). Lithium is an Alkali metal, a group of elements known for burning when touching Oxygen or hydrogen - meaning spontaneous and immediate burns when touching air. And, well, who kept on burning until they literally split the flames? That's right, our boy Red Son.
In The First Ring Princess Iron Fan says that Red Son was a "promising addition to the Demon Bull Family. Too promising". No one predicted the Samadhi Fire, it was spontaneous. like the burning of Lithium. In JTTW they needed an entire fucking ocean to put it out, a terrible idea when we're talking about Alkali metals (that also burn in reaction to water), but. fine. okay. it's an Alkali metal that burns in red, so it's lithium.
The Splitting Ritual
During the ritual, Tripitaka used magic to hold the fire while they separate the fire into three - an act that would obviously be impossible according to science, but we'll let it slide. So assuming this can separate the fire: what would it be separated to? Lithium is an element, you can't just split it. That would cause an atomic explosion. So what is it?
The answer is that it's not pure Lithium - that kind of substance is extremely unstable. the substance burning in the Samadhi fire is a molecule called Lithium Chloride (LiCl), and the ritual was a simple chemical reaction that turned the Lithium Chloride, with a little bit of Copper, to Lithium and Copper Chloride, with a reaction i will explain in the next part.
The Rings And Mei's Ritual
In her vision, Mei sees three rings, each burning in a different color. in the original JTTW lore the fire is made out of all the elements combined, so that's how i'm going to refer to it. But, like, also scientifically correct.
We have the orange fire, created with Calcium Chloride and representing Fire, mainly with its color.
next is Blue, created either with Alcohol or Copper Chloride and representing water with the molecule shape and type (alcohol is a type of a molecule build, and although water fits this category it is an exception and is NOT considered an alcoholic molecule).
and lastly there's the green fire, which is created with Copper Sulfate and represents earth, because Copper in one of the most common Precious Metals found inside the earth.
The original ritual starts with one Copper chloride ring, one Copper Sulfate ring, one Calcium Sulfate ring, and a big ass Lithium Chloride fire.
Then we have a chemical reaction when Tripitaka uses his magic, and it turns into one Copper Sulfate ring, one Copper Chloride ring, one Calcium Chloride ring and a harmless little Lithium Sulfate that hardly ever set fire.
Mei's ritual is kinda just the opposite, but with a big twist: when Lithium Chloride is created it releases a heat wave much hotter than its regular burning, creating white sparks. In the beginning of the ritual we can literally see a huge flash of light before the fire is created.
Ao Lie And The fourth Ring
There wasn't supposed to be a fourth ring. Sun Wukong said it clearly. He lost control and Ao Lie had to take the hit so Tripitaka doesn't die, turning himself to the fourth ring. Now, is this chemically possible? Of course not! So what is going on here?
Well, what if Ao Lie used the copper inside his bones and muscles to trap the fire inside a Copper Sulfate "ring", like the green one? He used the chemical reaction of the fire with his body (and probably a lot of magic, too) to make a ring inside of himself, trapping the last bit of fire. That would also explain how Mei has the fourth ring - it's like a defective gene, it's inside her bones. That could be the reason for her dragon form's "fire breathing" even before the ritual happened, she literally has fire in her bones.
Mei's Control Of The Fire
When Mei just gained control over the fire, the flames were red, like with Red Son before. She tried to use the fire like him, with lithium Chloride as her base. But she was afraid of the fire and didn't understand what's happening, so the fire was reckless and couldn't be tamed. It was affected by her feelings, and she simply couldn't control five different parts of the fire at the same time.
"Don't use the fire, Mei. BE the fire". It was only after Red Son told her this that she managed to really bend the fire to her will - because she used the copper inside of her to catch the fire and make it part of her, truly. She discharged the other rings and even the original burning Lithium and used the fire on her own terms, with Copper Sulfate as the base.
Minor spoilers for season 5!
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When the Dragon fruit Duo try to seal the Fire Creature Mei loses control, which shouldn't have happened according to this theory. If the fire is inside her bones, she shouldn't lose her ability to control it.
But look at what Red Son tells her (Translation by monkiemacaque on Youtube!): "You evolved with the fire! You didn't completely lose your connection, and never once gave in to its will! You are its master!"
Mei never lost her ability to control the fire, it was still there. The only problem was that it was inaccessible for her - it's like a reflex, it's an irrational response and she can't use it on command. Mei had to learn how to force the fire to obey her will, how to turn her reflexes to rational actions. Like how Red Son used to punch himself to activate the fire.
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I hope this was clear and easy to understand, I can try and explain more if not.
I don't think there's much to add, but let me know if i forgot anything!
Only thing I think is worth mentioning is that in some shots the flames are black, which is also impossible because. you can't make black (AKA lack of light) fire (AKA light source).
Also have these parallel screenshots I didn't know what to do with.
#did i just write an explanation for something literally described as unexplainable? yes. yes i did.#did i write a chemical explanation for a fictional fire instead of doing my chemistry homework? indeed.#i can never let my teacher see this#yes it would be hilarious#but no#why did i write this#im supposed to be doing stuff#lego monkie kid#lmk#samadhi fire#mei lmk#red son lmk#rings of samadhi
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newborn regressor Frederick Kreiburg/composer?
oh my god...he would be baby.definitely.
Like you said,newborn mainly.but he does sometimes slide to like...young toddler.
I feel like he'd find it easier to connect to female caregivers (such as Melly,Alice and Mary) than male,just thanks to how...his dad was.
he's a BIT of a crybaby.the voices get really bad when he's little.it's scary :(
like Orphy,the De Capo/Ashes of Memory gang have joint custody of him (+Edgar because I ship them)
like with Servais,he's a bit of a "princess regressor"-loves to be spoilt and coddled like the adorable little guy he is
he also loves when he's dressed in cute accessories like hair clips,bows
genuinely,just gets put in the sweetest clothes and acessories.and always has a paci
musical toys are this baby's life force,I swear to god.
and those baby sensory videos with the piano in the background.honestly,they're a sure fire way for him to stop crying
another is through skin-on-skin with one of his cgs.he just likes being held,and told he's little and innocent 🥺
Mary="mama",Melly="me-me",Alice="Licle",Norton="bubba" (big brother) or "Nono",Orphy="phy".he can say none of their names-
this is kinda based on his association with Kreiburg racecourse and mentioned interest in Equestrianism,he has a plushie of a horse.it goes everywhere with him.
for his mysticism thing...fairy tales.
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i feel you would taste like mmm sweet but rlly lile crunch i feel you would be lole hard candh idk like mmmm bite cruch brak suck candy swallow filled with like gum idkd licl
this was ... such a rollercoaster to read ...
I'm hoping that the takeaway of this is that I'm sweet? Thank you very much? O.o
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Names generated from cheese names and types, the entire article on List of Cheeses from the English Wikipedia
Actennees Actili Addaharskor Ading Agerds Allicatur Amadabla Aminly Amodo Anski Antic Appeared Apprad Aprosserur Aractick Argers Arlarly Artern Ashmid Aucespety...
Bactian Bacyclues Baireditelf Balic Balipeatte Bancyprge Baniking Baraty Bardescan Baslea Basses Becer Beesser Beliep Betiand Bodere Borine Braginguate Braka Breia Brisarzily Bruka Bruse Buritabows Buttia Bénés Caledallart Calimlja Canimiano Cardalt Cestan Chapic Chaquin Chativnial Cheses Chigh Chinds Chkas Chnompodor Chumennón Cianchavski Cithomalpan Clemoûd Clećeve Cluer Cobtly Cogine Cohista Colockale Comen Comends Comix Comme Complj Congypire Corkesio Cressades Cring Crishkat Crocal Crustral Cuniniste Curaval Czerbitso Dakaric Danikel Deggia Delest Dened Denress Diandian Dicresoune Diffevalay Dilkown Diste Ditingenti Dobenzou Donia Dultook Duratursky Earta Edara Eliki Elsosiyan Emems Enthicki Eurele Exclition Exped Exquir Extos Facky Falgallon Fatedyn Feaka Fiety Filimand Filogy Findivorm Firapianeh Fonsialleut Footerigh Foravsky Forières Fortion Founly Fradish Freatatur Frenon Frevé Frugurits Fulariman Fulgi Fümetalloer Gaijão Galanither Galles Gallint Gatible Geordalu Gexisig Graki Grani Grationguay Graván Gredong Griped Grist Hearkand Herads Hifer Hility Hilla Hinje Honcrost Honegin Huagołkass Humiróg Husixacket Immenuf Impososta Indevan Iničkire Inter Intrano Ishent Ishice Isteakort Jamixteran Jibune Jišing Jorgedly Jorth Jortio Juing Kagues Kajože Kassiroxist Kavenglithi Kaweetay Kačačka Kačačkieti Kortaka Koseclu Koval Koved Kraddis Kraki Körözöttalf Kıbres Lantaredin Laťáckin Leake Lecturginir Licle Limarpan Limselical Litte Lociffa Lonalauely Lotle Loughta Louns Lovallo Lumbell Lužički Macké Maneb Mante Maradiys Marcate Marmal Maróg Matelly Matio Mellan Meniont Menteurre Micki Midency Milader Mileatarmes Miramed Moild Molloria Molmer Monepene Moning Monneggio Monserbs Mooley Moseto Mosinaband Mosno Mostaini Mostore Mougurn Mounne Mouta Naged Nički Ničkienas Noashamo Nosoristen Novestoski Năsaking Ofteran Okoran Oladanım Olbak Olizer Omixed Openniew Oripety Orière Ortonal Ovelst Ovest Oweling Oázilomost Pactured Pages Paildymound Paining Palianciane Palita Panoterpis Paraniew Parly Parter Pased Paslarappe Passially Pecidityn Pecon Penietseru Pervers Phenée Piimelo Pincy Piria Pistr Plabal Placte Pleal Plilnian Poratry Pregolin Preques Prest Prgens Priales Pricuratin Promboce Promon Prony Prosular Pâted Raties Readrão Reausar Rebejoricer Refulašić Renski Rentomauka Repectatiet Reque Rhilildon Rocanchny Rochiny Rodiffulad Rostion Roteradon Rotty Ruvions Saaasnøfrep Saded Sakfa Sallow Scaroboy Seatinia Sedined Sembudkas Sement Semmed Senicale Seseana Siazed Simix Sived Sivened Slating Sling Slourger Smalbos Smaniant Smeng Snøfring Sochanavo Somesends Somté Sopodge Soundu Sount Sparands Speamut Specian Spence Spichny Spinge Stionchees Stratring Strefebar Suctostand Suhah Sulavan Svelory Sweightly Sweijapsk Swical Swistruvil Syreest Syrerin Syrit Tagent Taile Teads Teconging Tembora Tenpark Testic Theats Theed Theet Thoubigni Tianteu Tiérrintle Toasisted Tormon Tosethosed Tostilki Trabley Trang Trastic Trink Triots Triped Troducen Trpczegia Tweing Tylżycied Tyria Tzapriede Tzfated Ukrón Unatistaipt Undirught Unter Untriation Uplaver Uront Uruving Usenički Užnie Vaccam Vadiced Vales Valewher Vantylżycki Varipsket Vartin Varton Velople Vigna Vover Vurdilana Wally Warriviounj Watenneb Wavyerionta Wayel Wedound Weepts Weeth Westaandú Whertra Whind Whotlant Wicamet Wican Wicationg Winglice Worepic Wrakinga Yashkas Youga Zableano Zamurai Zativia Zlappetra Ääned Çandomilizë Łoply Štran
Same thing but greater order
Acter Actual Afghanklish Afuegar Aginne Alemed Allersian Amegredaler Amerus Amound Anian Annatine Annessenan Anths Appish Appisterive Applete Approvo Atter Auradour Auseum Baija Bakır Balade Bambolia Bania Bankowyi Barda Barkeswar Becausky Beestauriz Begar Beidseer Besteirante Bevened Bianspare Bittermiga Blacess Bodiention Bohing Boilin Brain Breatial Brini Brocerts Brovo Brusan Burski Cajada Camers Carially Carpa Carpathern Cartian Ceable Chacatto Chanical Chanish Chanım Chavian Chhan Chhurassin Chubuski Churpi Coation Collowever Cological Colon Combinal Companilova Complit Condic Confusives Contable Cookin Coung Coungali Countanish Cress Crusselloa Cular Culton Curdline Czecia Dated Daysia Decons Delize Denstes Depenički Deshing Deshird Designiz Dimsen Dishop Dishta Distandean Donese Dotyri Draters Ducela Dumple Dumpleaner Earac Edian Elaring Elebit Elley Encient Equenced Esruminted Estrebited Ethes Eurita Everatep Eviotdalend Eviotdalmin Eviotta Exceedium Excelition Existilla Expening Exportam Factin Farment Favoresvisk Favorsk Feetness Fered Fermal Fevenly Fillo Fined Flavsky Flowesi Follandú Forma Fortam Fossic Frong Gains Gamojski Gamouda Gentep Geograte Geogray Gethick Golandsoup Golangly Goricallect Grafa Gramerical Gramsø Gravyerious Grilland Grobot Groudought Grounj Grounterla Grous Hankuration Harpa Haust Heida Helds Hella Highvan Hinas Histinguis Homelts Homolsten Homous Inctly Indivia Indured Instein Intainly Intenica Interized Intring Irand Irenaico Irred Irreller Irrese Isting İzmirón Jacki Japarticult Jarlberg Jurholmir Kabao Kaese Karac Kashken Khalum Kilad Konous Kored Krand Kravnik Kuyavigno Kuyavine Laded Lated Lauses Lavorigina Leavy Lechief Leftoven Levely Libutell Limpo Liqvane Locall Lollow Longoings Lossing Lural Lužnički Makian Maned Mantal Marca Marcastical Marchil Masliginse Massia Matia Mauritale Mearially Melith Mello Mihalo Minel Moalt Moder Moderi Moistic Molder Moldt Mongolašić Montion Morbian Mostatiny Mozzare Myzithuan Nable Neaniet Nectandú Nevely Nomanuface Noring Nortal Nortisa Notabraidō Noven Nøkkeller Obtains Olish Olombia Olomogene Ongolled Opong Orand Ordiscows Oricalian Ories Originanco Oring Owevel Pains Pairi Palemear Palmirón Panelasket Parac Paracky Parea Pared Parefer Parmenus Passia Pasting Pecifieded Pepped Peppedialic Percest Peruli Peynirie Picated Pices Picán Pinarski Piquancycle Piqueijão Piquirent Platay Podgorigio Podhali Podlassic Pointore Popultured Praguesón Pratego Preat Produces Producesse Prote Proted Protes Proximay Publice Pular Pullouising Qishelp Queijão Quesón Raelandú Ranco Recter Reggion Regiano Repok Reque Require Requite Retch Rical Riple Ropoleafy Roslavora Salecki Saler Salten Saluence Savor Scaliling Semaine Semish Seration Serbaidō Serrenga Shakshowery Shapsugar Signation Siled Simposhelf Sleys Slovaking Slowickle Smetria Softeningy Solivno Sortugua Soybean Spanean Specian Spicán Spling Sprepart Sremberg Stangua Stapland Start Statelman Staterious Stauerkets Stericates Stical Storycing Stradition Strine Strobnički Strongold Sugges Suhail Sulargenian Sweeks Sween Sweetnes Swiscow Tabrito Tafone Talesbosnia Talkarade Tandú Tanged Tectery Tellish Tevely Teviot Theral Thing Thousalut Tiroles Tiroted Tomannónian Toods Topperhaps Tountaine Tountaster Tournesse Trano Trelo Tulugunic Tureddition Tweiga Typices Typickled Tyrole Ubing Ukrangible Ukraván Unripening Urbieh Valder Vanaraconce Varianotall Varing Varůžky Veineja Vened Venly Veral Villa Vlašin Washken Wated Weded Welve Westinc Whethe Whick Whill Wided Withen Yellinarski Yellose Yelly Zagrafa Zlate Zlaton Čačans
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... thinking about masturbating n leaving cunt juice on your chairs
Hypnotized to believe its a women as youre commanded to lick it up.
I womder if it would make me desperate enough to keep licling hoping for more juice
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Novel sustainable electrochemical method converts carbon dioxide into carbonaceous materials
Carbon dioxide (CO2) is a major greenhouse gas emitted through various types of human activities. In an effort to decrease humanity's carbon footprint, scientists and policymakers across the globe are continuously trying to explore new methods for reducing atmospheric CO2 emissions and converting them into useful forms. In this regard, the electrochemical method of reducing CO2 to other carbonaceous forms like carbon monoxide, alcohols and hydrocarbon has gained considerable attention.
Against this backdrop, environmental researchers from Doshisha University, Japan led by Prof. Takuya Goto recently published a study in Electrochimica Acta that demonstrated one such method for converting CO2 into multi-walled carbon nanotubes (MWCNT) using molten salts through sustainable electrochemistry. Their study was made available online, and included contributions from Dr. Yuta Suzuki from the Harris Science Research Institute and Mr. Tsubasa Takeda from the Department of Science of Environment and Mathematical Modeling.
Using a sustainable electrochemical technique, the research team facilitated the conversion of CO2 into MWCNT using LiCl-KCl melt. The molten salts were saturated with CO2 gas and semi-immersed nickel (Ni) substrate was used as electrode. The supplied CO2 was electrochemically converted to solid carbon at the end of the procedure. This green conversion occurred via a reduction reaction at the Ni electrode/LiCl-KCl melt/CO2 interface.
Read more.
#Materials Science#Science#Electrochemistry#Carbon dioxide#Reactions#Carbon nanotubes#Molten salts#Carbon#Nanotechnology#Nanotubes#Doshisha University
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uhm hey do u mind if i just
*lick licl lick lick lick lick lick lick lick lick lick lick lick lick lick lick lick lick lick lick lick lick lick lick lick lick lick lick lick lick lick lick lick lick lick lick lick lick lick lick lick lick licl lick lick lick lick lick lick lick lick lick lick lick lick lick lick lick licl lick*
* lick lick lick lick lick lick lick lick lick lick lick lick lick lick lick lick lick lick lick lick lick lick lick lick lick lick lick lick lick lick lick lick lick lick lick lick lick lick lick *
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More art from 2022 I never posted to Tumblr!
A stately family portrait of King Trollfucker, the Eponymous Troll, and the Queen, who puts up with their nonsense largely for political reasons.
#my art#licl#licl: the fairytale#i was looking for a color ref for something else and rediscovered this in my files#still very proud of the lighting on king chlorine's face in particular#perhaps once i am confident enough with my digital painting i can do a more realistic version!#the queen is actually very fun she just isn't super thrilled that her royal husband is carrying on with a wet monster that wants to eat him#but unfortunately for her the troll was there first
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repostober day? 9?
it's time for! RENAE INTERLUDE
dated june & july 2019, renae was originally from the reverse fairytale licl au (i told you about the au's, bro), where lithi is a prince and forced to marry for the good of the kingdom even though he's in love with chlorine (a bridge troll) and so he has kids !
renae is the baby of the bunch and as such, vERY SPOILED, VERY OVERPROTECTED, kiiind of has something to prove, and also thinks she's totally invincible
incidentally, it was decided that in VAMPIRE au lithi also has kids, he just doesn't know about any of them (he's kind of a huge slut, guys).
AND THEN i brought renae back as a character for an urban fantasy rpg one of my friends was running, which lead to this (non-canon) comic where she has traced her ancestry back to this guy in the 1890's or whatever ONLY HE'S STILL ALIVE!!!!! (or undead, whatever). lithi doesn't like this. chlorine thinks it's the greatest thing that's ever happened to him.
#sao art#licl#repostober#renae#lithi#chlorine#oh my god i've forgotten all the specific licl au verse tags ;_;
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shiva baby my bloody/ valentine cherry falls bound nu metal teen slashers body bags tragedy girls freaky spree psycho 2 dolls kolobos cut house of wax scooby doo skinned deep hooper hellbent the descent cry wolf feardotcom signs behind the mask new years evil last matinee sick fade to black the blackening talk to me mimic trauma waters cabin boy freaked dark bckwrd the gate 2 crossroads jawnbbreaker dbs sugar& spice sp7ce world sl6m s if beverly home fries mary kay ruthless people 3 men & dazec & c9nfused election romy & m7chele drop dead gorheous ump u p the vol7me buffy strike mary janes not watermelon shes the man goodburger jackson raimi mckee bill n ted 3 bl8ng ring soring breakers irma vep judt snother girl on tbe licl yhe star mod fuxk ezplosion foxfire mermaids pumpkin applegates flintstones duck traxy newsies now& the n poeticj7stice gods & mo syers opposite of sex slacker rox6 carm8chael new waterford girl modern girls tpkyo pop stick it tmnt wild things vegas in spacw to wong foo priscilla six string samurai desert hearts kamikaze v9n ptaunheim black beyonf
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The novel pre-rRNA detection workflow "Riboprobing" allows simple identification of undescribed #RNA species. [Article]
Ribosomes translate mRNA into proteins and are essential for every living organism. In eukaryotes both ribosomal subunits are rapidly assembled in a strict hierarchical order, starting in the nucleolus with transcription of a common precursor ribosomal RNA (pre-rRNA). This pre-rRNA encodes three of the four mature rRNAs which are formed by several, consecutive endonucleolytic and exonucleolytic processing steps. Historically, Northern Blots are used to analyze the variety of different pre-rRNA species, only allowing rough length estimations. Although this limitation can be overcome with Primer Extension, both approaches often use radioactivity and are time consuming and costly. Here we present "Riboprobing" a reverse transcription-based workflow extended by linker ligation for easy and fast detection and characterization of various pre-rRNA species and their 5` as well as 3` ends. Using standard molecular biology lab equipment, our technique allows reliable discrimination of pre-rRNA species not resolved by Northern Blotting (e.g.: 27SA2, 27SA3 and 27SB). The method can be successfully used for analysis of total cell extracts as well as purified pre-ribosomes for a straightforward evaluation of the impact of mutant gene versions or inhibitors. In the course of method development, we identified and characterized a hitherto undescribed aberrant pre-rRNA, arising from LiCl inhibition. This pre-rRNA fragment spans from processing site A1 to E, forming a small RNP that is lacking most early joining assembly factors. This finding expands our knowledge of how the cell deals with severe pre-rRNA processing defects and demonstrates the strict requirement for the 5’ETS for the assembly process. http://rnajournal.cshlp.org/cgi/content/short/rna.079912.123v1?rss=1&utm_source=dlvr.it&utm_medium=tumblr
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Isopropylmagnesium chloride lithium chloride complex Manufacturers
Chemistry is a realm of endless fascination, where compounds and complexes often hide intriguing secrets waiting to be uncovered. One such enigmatic compound that has piqued the interest of researchers is the Isopropylmagnesium Chloride Lithium Chloride Complex.
In this blog post, we will delve into the world of this complex, exploring its synthesis, properties, and potential applications.
Synthesis
The Isopropylmagnesium Chloride Lithium Chloride Complex, often abbreviated as i-PrMgCl∙LiCl, is a derivative of Grignard reagents, which are organometallic compounds widely used in organic synthesis. Its synthesis typically involves the reaction between isopropylmagnesium chloride (i-PrMgCl) and lithium chloride (LiCl). The reaction is carried out in anhydrous conditions to prevent the interference of water, which can quench the highly reactive Grignard reagent.
i-PrMgCl + LiCl → i-PrMgCl∙LiCl
Properties
Understanding the properties of the i-PrMgCl∙LiCl complex is crucial for harnessing its potential in various applications. The complex is known for its stability and solubility in common organic solvents, making it a versatile compound for reactions in organic chemistry.
Structural Characteristics: The complex is believed to form a coordination compound with lithium chloride, leading to a well-defined structure. The exact structural details are often determined through techniques like X-ray crystallography and NMR spectroscopy.
Reactivity: Due to the presence of the Grignard reagent, the complex is highly reactive in nucleophilic addition reactions, making it valuable in organic synthesis. Researchers have explored its utility in the formation of carbon-carbon bonds, which is fundamental in constructing complex organic molecules.
Temperature Sensitivity: Like many organometallic compounds, the reactivity of i-PrMgCl∙LiCl can be influenced by temperature. Researchers often optimize reaction conditions to achieve the desired selectivity and yield.
Applications
The unique properties of the Isopropylmagnesium Chloride Lithium Chloride Complex render it valuable in various applications within the realm of organic synthesis
.
Carbon-Carbon Bond Formation: The complex is particularly useful in the synthesis of organic compounds through the formation of carbon-carbon bonds. This has applications in pharmaceuticals, agrochemicals, and materials science.
Catalysis: Researchers have explored the potential of i-PrMgCl∙LiCl as a catalyst in certain reactions, capitalizing on its reactivity to facilitate and enhance chemical transformations.
Functional Group Transformations: The reactivity of the complex allows for the conversion of functional groups, enabling the synthesis of diverse and complex molecules.
Visit : n-Butyllithium manufacturers to knowmore !
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