Even still though, she must be careful to control her demonic power, lest her necklece be corruptted and she transform into a terrifying queen of hell.

Drinking noob's tears... My tears so... ---------- Photography: @allpodayo Lights: @kaicomphoto Mechanic engineer: @libs_cosplay Reinhardt costume: Made by @libs_cosplay / Worn by @maverick_cosplay Scenography: @lithil / @chatcosplay / @cynshenzi Project assistant: @hybrian_games Costume assistant: @matthieu7.richard / @draga_cosplay Backstage: @kumacosplay Communication: @samus_cosplay Props: @takacosplay.fr / @dounicecosplay / Vali Chap / Kuma Cosplay / Nysen Cosplay / Shenzi - Craft & Art / Chat Cosplay / Samus Cosplay / TL Prod / Maverick Craft'N'Props With the participation of @nomel.props #cosplaysharing6728 #cosplaysharingfr @cosplaysharingfr #overwatch #blizzard #reinhardt #reinhardtcosplay #reinhardtoverwatch #cosplay #cosplayer #playoverwatch #gamecosplay #overwatchcosplay #overwatchcosplays #blizzardcosplay @overwatchcosplays @overwatchcosplay @playoverwatch (à Lille, France) https://www.instagram.com/p/CdJGN2HjiX7/?igshid=NGJjMDIxMWI=

My Rex, named Frostbite(Ragnarok, creative mode). My low level female Trike(Ragnarok, creative mode)...I simply loved her colors so I tamed her and my Dilo twins, named Lillith and Lithill(The Island, legit playthrough, no creative mode allowed). My Island playthrough is going quite well, unexpectedly. Currently trying to mutate Dilos, I just love breeding and mutating...gives me something to do in the slow areas. Got killed by a raptor twice, same raptor. Proceeded to finally grab my stuff and was victimized promptly by a sarco. Those are the times I want to break my own rule about creative mode. Haha.

quenya names BUT excluding "w"

Ablanië Aicklingir Aimendë Aindardil Aingaolo Airelror Aithlaul Alanorna Alanórë Alartoldo Almosse Aloccurë Ambals Ambalë Ambors Amornint Amíring Ancirs Andarquen Andilmic Angalë Anicop Anindómë Annarf Anolkinórë Anyafing Aramírë Ariananya Arindilië Arionónë Artarcon Atairinna Atantir Ataracild Atariondil Atarmaitar Atersand Athiefts Auronie Avalaity Avensouru Averice Avessë Avestarna Bealassë Beight Bentië Bitheight Blernuser Blettatul Borene Borlainya Brerronds Brindil Calamormëa Calter Cander Cantarion Carastody Carkinga Carnelondo Cartale Cendessë Cendossë Cenelemena Circhar Clantatya Clords Coristil Cornor Crerulings Cuinliner Cundamace Cupieldo Cupits Cánombs Darders Derostests Dildacir Dildevana Doundo Ducarie Dureldo Eastelk Eavendi Ekkairy Eldace Eldilder Eldolmall Elduron Eldórë Eleassë Elemnalë Elenturë Elessë Elestīrē Elesussë Elindë Elpeas Elpidi Elveru Elvisil Elyavaiquë Enduit Enelont Eopper Eriárëa Ermarknele Erronel Estarusēn Eämbars Eäramirë Eärearion Eäreendil Eäreopla Eärnied Faliondo Femors Fickle Findeed Findurnā Finornizar Flacir Flainda Flandë Foldaletta Follië Folondëans Fooldan Fornest Foronduram Forost Frulingol Fírinas Fíriumbast Garaitë Gingslaur Gingthine Gnighele Gnimaced Golasto Gollónandy Golordar Graucarien Greaven Greldóres Grendie Hablaquë Hadilótë Hantál Harissë Harkno Hastry Hathil Hauctong Hecalë Heling Helliontë Helven Hernani Hersick Hidereamo Hielóna Hilion Hilmacirë Hinday Hinyam Hiriong Hiristana Hommair Hostīrē Houssë Hrings Hránië Hrívise Hyalameld Hyaliani Hyantalë Hyariont Hyarië Hyarkle Hávaitë Iendil Ientar Ildondo Illeft Ilmortarn Imacassë Incalas Incirni Indarado Indiandónë Inólaing Isight Islairsēn Isonta Ittelent Kercar Khanot Kingasta Kingualië Kulail Laccilin Laconie Ladfar Laindil Lairya Lamarmë Lamirë Lanain Lancent Landace Landamba Lannar Lantarion Laquenta Lariondor Larvene Lemarmaris Lembar Lersingil Leruhil Lianáros Limírëa Lindiandë Linyarinde Lithil Livicel Liévaitë Loftsirien Lorossë Luffincal Lóminan Lómirë Lónated Lúvalmasta Maickon Mairmë Mairya Maither Malaquár Malosse Mandil Mandurion Maninind Manyas Mardan Mehabhor Melótë Menquen Menótë Mieldambë Minamírë Minanil Miondórë Mirday Mondorondo Mouren Moussamitë Mundarient Mungstrul Máhantele Mámando Mírindi Míriondo Míristody Naloro Nandillë Narríma Ndatch Ndauren Neldil Neldomy Nelernë Nendendë Nendle Nernitern Nestaraur Nicturëa Nifeme Nilingalos Niming Ninaught Nister Nolligh Noluin Nordam Normords Nureyble Nussaught Nísirië Nólëon Nórislast Númandorië Númendorg Númistsil Oarnaty Oasson Ocartelen Oinquendi Olaure Oldordarme Ongolumon Oreemorel Orgindali Orondo Orosto Orromeleng Ortommíris Orñolondë Oungaoron Palarya Palimara Patenda Pattelub Perielenna Persivendë Persus Phalmondle Phastyelda Piddle Plenyanna Pluion Plumúrë Prealitë Preyma Quenalassa Quivië Raccurch Rairnin Ralattan Ramacoun Rannaxar Ranámarien Rightara Rimaiands Rimardil Rinari Rindick Rindëa Rindómë Ringol Rohele Rohidesto Rondambar Róliceru Rómend Rómiran Rúater Saherend Sarnief Secánar Sheight Shirmardle Shiron Shistaráno Sicturitë Sildaling Simantë Sindasar Siveng Sivenimo Sivers Smandil Smired Sondiando Sormarámo Souble Soutumbar Spards Spieldo Spillards Spiraul Stalië Stalúmë Starendil Starínana Stmark Sustárë Sénistand Taiana Talfhe Tantani Taraned Tarendo Tarimon Tarman Tartauctul Taucast Telendolle Telfhe Telkormar Terrists Tersumbar Thandilta Thantlan Thaysh Thilma Thinyarmë Thithil Thoomar Tilmiryon Timele Tinsung Tirdon Tirmenyë Tirráto Turagrer Turcano Turciry Tureen Turest Turoampal Turonge Turtal Tyamasak Umernë Umúrië Upiendë Ustaras Valacon Valaur Valieng Valind Valinelmo Valmar Valmarava Vaurnar Vieldatted Vinalë Vingar Vinques Vinquettar Vormeldo Yavyhasar Yelegife Yuldayes Yuliond Yárestarro Yésuntë Ñgolaments Úmengs Únanaur Únaxan

Cathode Materials Market Set for Rapid Growth And Trend, by 2026

Global Cathode Materials Market: Overview

Cathode materials are key elements that determine the differences in composition while building positive electrodes for battery cells. These materials include manganese, nickel, and cobalt in the crystal forming a multi-metal oxide material to which lithium is added. These batteries include products that cater to different users who require high energy density and/or high load capacity.

Read report Overview-

https://www.transparencymarketresearch.com/cathode-materials-market.html

Modern cathode materials for lithium ion batteries are generally prepared in the lithilated state in order to be able to paired with delithiated anodes, such as graphite. Materials that are stable at room temperature and are easy to handle are generally chosen for cathode materials.

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The requirement for high specific capacity generally restricts choices of compounds to first-row transition metals usually Magnesium, Iron, Cobalt, and Nickel. Environmental and toxicity concerns have precluded the development of most V or Cr-containing materials, although electroactive compounds containing these metals exist.

Cathodes can be categories into metal oxides and polyanionic compounds. The cathode materials market is anticipated to expand at a rapid pace during the forecast period owing to the growth of end-user industries.

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Global Cathode Materials Market: Key Segments

Based on battery type, the cathode materials market can be segmented into lithium-ion, lead acid, and others. The lead-acid battery segment dominates the market. This can be attributed to the increase in usage of lead-acid batteries in automotive industry. The automotive industry has been expanding at a rapid pace in the last few years. This trend is likely to continue during the forecast period. Sales of automotive, especially passenger cars, have been increasing at a rapid pace due to the expansion of the automotive industry in Asia Pacific. The lead-acid battery segment is anticipated to continue to dominate the market during the forecast period. The segment is likely to expand at a significant pace during the forecast period.

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In terms of material type, the cathode materials market can be divided into lithium-ion, lead-acid, and others. Others includes oxyhydroxide, sodium iron phosphate and graphite cathode. The lithium-ion segment can be sub-segmented into lithium iron phosphate, lithium cobalt oxide, lithium nickel cobalt aluminum oxide, lithium manganese oxide, and lithium nickel manganese cobalt oxide. Lead-dioxide is a cathode material which is used in lead acid batteries. Currently, the lead-dioxide segment holds a major share of the market. This trend is anticipated to continue during the forecast period due to rapid increase in year-over-year sales of automobiles.

Global Cathode Materials Market: Regional Analysis

Based on region, the global cathode materials market can be categorized into North America, Europe, Asia Pacific, Latin America, and Middle East & Africa. Asia Pacific is likely to dominate the global cathode materials market during the forecast period owing to the expansion of end-user industries in the region. Automotive and consumer goods industries in the region have been expanding at a significant pace in the last few years. Automotive and consumer goods are major end-user industries of batteries. This trend is estimated to continue during the forecast period due to economic development in countries such as China and India in the region. Rise in disposable income of people in these countries in the last few years has increased the sales of automobiles and consumer goods. This, in turn, is projected to drive the cathode materials market during the forecast period.

Global Cathode Materials Market: Key Players

Key players operating in the global the cathode materials market include Johnson Matthey, Hitachi Chemical, Kureha, Mitsubishi Chemical Holdings, POSCO, Sumitomo, 3M, Toda Kogyo, Mitsui Mining & Smelting, and Umicore.

Measurement of psychoactive drugs in the human brain in vivo by MR spectroscopy

(1)Commentary Measurement of Psychoactive Drugs in the Human Brain In Vivo by MR Spectroscopy Richard A. Komoroski 1. The success of magnetic resonance (MR) imaging has led to considerable interest in MR spectroscopy (MRS) as a noninvasive probe of in vivo brain biochemistry for neuropsychiatric applications (1-3). Most work has used [31 P]MRS and [1 H]MRS to measure relative concentrations of endogenous metabolites. [31 P]MRS can probe tissue pH, energy metabolites such as phosphocreatine and adenosine triphosphate, and the precursors and degradation products of phospholipid metabolism (4). CHJMRS can measure certain metabolites ·o f low molecular weight and amino acids such as choline, creatine, glutamate, and N-acetylaspartate. The last compound occurs primarily in nel)rons and appears to be a marker for neuronal depsity (5). The article by Gonzalez et al (6) in this issue of the Amerjcan Journal of Neuroradjofogy describes measurements of brain lithil!m (Li) concentrations in vivo using MRS and highlights the ability of MRS to monitor exogenous agents, an important feature that has received less attention than the use of MRS to measure endogenous metabolites in vivo. MRS of Drugs In Vivo. Although 'monitoring of therapeutic (or toxic) agents and their metabolites in blood or urine is convenient and relatively inexpensive, it may not be ideal. The magnitude of the pharmacologic or toxic effect of a drug depends on the concentration at the rE;!ceptor sites in the target tissue. For example, the concentration in serum may not always reflect the concentration in brain, where highly water 7soluble compounds can be excluded by the blood-brain barrier. Alternatively, a drug may accumulate to a high level in tissue with long-term administration, whereas levels in serum remain at a relatively constant lower level. Therapeutic (and/or toxic) response, the ultimate. measure of correct dosage, might be expected to correlate better with concentration in tissue than in blood or urine. Moreover, drug metabolism in the target tissue may differ substantially from that in the liver. An in vivo probe of drug concentration in tissue may have utility for psychiatric illnesses, in which accurate diagnosis is often problematic, therapeutic response can be difficult to measure, and drug levels in serum often are inadequate predictors of response. Because it is noninvasive, MRS can be used repetitively, perll)itting pharmacokinetic studies. In principle, the drug concentration can be measured at separate locations in the body or organ. Because MRS is performed on one magnetically active isotope (eg, 7 Li, 19 F) at a time, there is no interference from background signals if the drug contains a label not normally found at significant levels in the body. The sensitivity of MRS to molecular structure may permit simultaneous monitoring of the parent drug and its metabolites. The possibility of simultaneously measuring the level of a drug in tissue and its local metabolic effects (with 31 P or 1H spectra) is unique to MRS. On the other hand, the low sensitivity of MRS and the low concentrations of most drugs in tissue, except perhaps when taken in overdose, limit in vivo studies to a handful of compounds. Most drugs do not have a convenient MRS handle such as fluorine, and can only be studied by [1H] MRS or perhaps by [13 C]MRS. Metabolites that can be resolved in spectra of extracts or whole biological fluids in vitro usually cannot be resolved in vivo because of the broader lines encountered and the lower magnetic fields used . Moreover, it is currently not possible to distinguish drug in different compartments (ie, the intracellular and extracellular spaces), which may be important for correlating concentration in tissue with clinical response.. 1. Departments ·of Radiology, Pathology , and Psychiatry and of Biochemistry, University of Arkan sas for Medical Sciences, Little Rock , AR 72205. Index term s: Drugs, psychoactive; Magnetic resonance , spectroscopy; Magnetic resonance , experimental ; Brain, measurements; Brain , magnetic resonance; Com mentaries A JNR 14: 1038- 1042, Sep/ Oct 1993 0 195-6108/ 93/ 1405- 1038 © A m erica n Society of Neurorad iology. 1038.

https://1library.net/document/zlg4192y-measurement-psychoactive-drugs-human-brain-vivo-mr-spectroscopy.html

for the past few hours ive been doing drafts and watching homestuck videos on youtube. conclusion? i fucking miss lithil

Rip 

But same tho

When you meet the best of the best and preform an Allez La CHATTE! 😂 I love you guys! @libs_cosplay @maverick_cosplay @dounicecosplay @fatmanfatjon @allpodayo @lithil #cosplay #facts #fun #lachatte

[16, 17, 18! :3c]

Character solidifying!

16. What does your character do for a living? How do theysee their profession? What do they like about it? Dislike?

Answered!

17. Did they travel? Where? Why? When?

When Ahjiriba was young (approximately 15-years-old) hermentor, Caraen, was given permission by the alfiq-raht’s parents to bring herwith him to Cyrodiil. She lived with him and his son, Lithil, in Anvil for thenext 10 years. They visited Skingrad, Chorrol, and the Imperial City severaltimes.

They also traveled to and stayed in Hammerfell for aboutthree years. Eventually, Ahjiriba made her way to Skyrim. She’s still in theprovince, and goes wherever she pleases.

18. What did they find abroad, and what did they remember?

More education, and several trinkets.

Most, if not all, of the excursions she went on with Caraenand Lithil were educational in some way (along with business dealings, or fulfillingsome sort of agreement or favor). These provided several opportunities tointeract with interesting locals, and to take a souvenir or two. All of thesewere left behind in Caraen’s home when she left for Skyrim.

What she remembers the most are Lithil’s pockets beingpicked outside of the Imperial City, fantastic food in Hammerfell, andtownspeople that are not fond of their spells.

As an adult, Lithil became an adventurer, using her swordsmanship skills to help the downtrodden.

wow what a cutie [don't look at it too closely it's not great]

Expansion of Cathode Materials Market to Remain Consistent During 2018 - 2026

Global Cathode Materials Market: Overview

Cathode materials are key elements that determine the differences in composition while building positive electrodes for battery cells. These materials include manganese, nickel, and cobalt in the crystal forming a multi-metal oxide material to which lithium is added. These batteries include products that cater to different users who require high energy density and/or high load capacity. Modern cathode materials for lithium ion batteries are generally prepared in the lithilated state in order to be able to paired with delithiated anodes, such as graphite. Materials that are stable at room temperature and are easy to handle are generally chosen for cathode materials. The requirement for high specific capacity generally restricts choices of compounds to first-row transition metals usually Magnesium, Iron, Cobalt, and Nickel.

Get Research Report Overview @https://www.transparencymarketresearch.com/cathode-materials-market.html

Environmental and toxicity concerns have precluded the development of most V or Cr-containing materials, although electroactive compounds containing these metals exist. Cathodes can be categories into metal oxides and polyanionic compounds. The cathode materials market is anticipated to expand at a rapid pace during the forecast period owing to the growth of end-user industries.

Global Cathode Materials Market: Key Segments

Based on battery type, the cathode materials market can be segmented into lithium-ion, lead acid, and others. The lead-acid battery segment dominates the market. This can be attributed to the increase in usage of lead-acid batteries in automotive industry. The automotive industry has been expanding at a rapid pace in the last few years. This trend is likely to continue during the forecast period. Sales of automotive, especially passenger cars, have been increasing at a rapid pace due to the expansion of the automotive industry in Asia Pacific. The lead-acid battery segment is anticipated to continue to dominate the market during the forecast period. The segment is likely to expand at a significant pace during the forecast period.

In terms of material type, the cathode materials market can be divided into lithium-ion, lead-acid, and others. Others includes oxyhydroxide, sodium iron phosphate and graphite cathode. The lithium-ion segment can be sub-segmented into lithium iron phosphate, lithium cobalt oxide, lithium nickel cobalt aluminum oxide, lithium manganese oxide, and lithium nickel manganese cobalt oxide. Lead-dioxide is a cathode material which is used in lead acid batteries. Currently, the lead-dioxide segment holds a major share of the market. This trend is anticipated to continue during the forecast period due to rapid increase in year-over-year sales of automobiles.

Global Cathode Materials Market: Regional Analysis

Based on region, the global cathode materials market can be categorized into North America, Europe, Asia Pacific, Latin America, and Middle East & Africa. Asia Pacific is likely to dominate the global cathode materials market during the forecast period owing to the expansion of end-user industries in the region. Automotive and consumer goods industries in the region have been expanding at a significant pace in the last few years. Automotive and consumer goods are major end-user industries of batteries. This trend is estimated to continue during the forecast period due to economic development in countries such as China and India in the region. Rise in disposable income of people in these countries in the last few years has increased the sales of automobiles and consumer goods. This, in turn, is projected to drive the cathode materials market during the forecast period.

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Global Cathode Materials Market: Key Players

Key players operating in the global the cathode materials market include Johnson Matthey, Hitachi Chemical, Kureha, Mitsubishi Chemical Holdings, POSCO, Sumitomo, 3M, Toda Kogyo, Mitsui Mining & Smelting, and Umicore.

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Cathode Materials Market to Observe Strong Development by 2026

Cathode materials are key elements that determine the differences in composition while building positive electrodes for battery cells. These materials include manganese, nickel, and cobalt in the crystal forming a multi-metal oxide material to which lithium is added. These batteries include products that cater to different users who require high energy density and/or high load capacity. Modern cathode materials for lithium ion batteries are generally prepared in the lithilated state in order to be able to paired with delithiated anodes, such as graphite. Materials that are stable at room temperature and are easy to handle are generally chosen for cathode materials. The requirement for high specific capacity generally restricts choices of compounds to first-row transition metals usually Magnesium, Iron, Cobalt, and Nickel. Environmental and toxicity concerns have precluded the development of most V or Cr-containing materials, although electroactive compounds containing these metals exist. Cathodes can be categories into metal oxides and polyanionic compounds. The cathode materials market is anticipated to expand at a rapid pace during the forecast period owing to the growth of end-user industries.

Read Report Overview @

https://www.transparencymarketresearch.com/cathode-materials-market.html

Global Cathode Materials Market: Key Segments

Based on battery type, the cathode materials market can be segmented into lithium-ion, lead acid, and others. The lead-acid battery segment dominates the market. This can be attributed to the increase in usage of lead-acid batteries in automotive industry. The automotive industry has been expanding at a rapid pace in the last few years. This trend is likely to continue during the forecast period. Sales of automotive, especially passenger cars, have been increasing at a rapid pace due to the expansion of the automotive industry in Asia Pacific. The lead-acid battery segment is anticipated to continue to dominate the market during the forecast period. The segment is likely to expand at a significant pace during the forecast period.

In terms of material type, the cathode materials market can be divided into lithium-ion, lead-acid, and others. Others includes oxyhydroxide, sodium iron phosphate and graphite cathode. The lithium-ion segment can be sub-segmented into lithium iron phosphate, lithium cobalt oxide, lithium nickel cobalt aluminum oxide, lithium manganese oxide, and lithium nickel manganese cobalt oxide. Lead-dioxide is a cathode material which is used in lead acid batteries. Currently, the lead-dioxide segment holds a major share of the market. This trend is anticipated to continue during the forecast period due to rapid increase in year-over-year sales of automobiles.

Global Cathode Materials Market: Regional Analysis

Based on region, the global cathode materials market can be categorized into North America, Europe, Asia Pacific, Latin America, and Middle East & Africa. Asia Pacific is likely to dominate the global cathode materials market during the forecast period owing to the expansion of end-user industries in the region. Automotive and consumer goods industries in the region have been expanding at a significant pace in the last few years. Automotive and consumer goods are major end-user industries of batteries. This trend is estimated to continue during the forecast period due to economic development in countries such as China and India in the region. Rise in disposable income of people in these countries in the last few years has increased the sales of automobiles and consumer goods. This, in turn, is projected to drive the cathode materials market during the forecast period.

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Global Cathode Materials Market: Key Players

Key players operating in the global the cathode materials market include Johnson Matthey, Hitachi Chemical, Kureha, Mitsubishi Chemical Holdings, POSCO, Sumitomo, 3M, Toda Kogyo, Mitsui Mining & Smelting, and Umicore.

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The union between a peasant woman and a demon lord, Lithil has spent much of her life an outcast. Made an orphan at an early age, Lithil scrounged for survival on the streets, doing her best to hide her demonic traits.

I Would Willingly Make A Blog For Lithil Without Hesitance But The Homestuck RPC Here Is Practically Nonexistent, a novel by me.

TRUUU

Cue Lithil occasionally poking Rairnu's cheek. "Hey, Rair!♡ You have to check out this playlist Dave made me of Earth music!♡ I really want to try and sing these to see the effects...♡"

Rairnu perked up at the mention of the blonde. "★Oh? Did he? I wanna see!★" She said, obviously curious.