Sintesis Material Katoda LiNi0,8Mn0,1Co0,1O2 (NMC811) dengan Metode Solid State Menggunakan Nikel Hasil Perolehan Kembali dari Spent Nickel Catalyst

Alchemy: Jurnal Penelitian Kimia Pub Date : 2022-09-22 DOI:10.20961/alchemy.18.2.63035.214-220

Hendri Widiyandari, Rizqia Afifatu Latifah, Arif Jumari, Cornelius Satria Yudha, Shofirul Sholikhatun Nisa

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Abstract

Penelitian mengenai sintesis material katoda LiNi0,8Mn0,1Co0,1O2 (NMC811) menggunakan nikel hasil perolehan kembali dari spent nickel catalyst telah berhasil dilakukan menggunakan metode solid state dengan variasi perbandingan padatan spent nickel catalyst/larutan (padatan/larutan) yang digunakan untuk leaching spent nickel catalyst sebesar (20 g/L, 30 g/L, dan 40 g/L). Proses leaching dilakukan menggunakan asam laktat 2 M selama 3 jam dengan suhu 80 ℃. Hasil dari proses ini adalah filtrat nikel laktat dengan endapan sebanyak 1,50 gram, 6,10 gram, dan 9,26 gram. Dalam filtrat tersebut terdapat ikatan hidroksida dan ikatan asam karboksilat. Material katoda NMC811 yang terbentuk memiliki enam puncak difraksi. Puncak difraksi X-ray tertinggi terdapat pada 2 theta 15° ‒ 20° dan 44°. Morfologi permukaan dari material katoda NMC811 menunjukkan terbentuknya partikel yang irregular dengan ukuran yang tidak seragam. Komposisi material katoda menunjukkan bahwa katoda NMC811 berhasil diperoleh dengan kandungan nikel sebanyak 73% ‒ 79%, mangan sebanyak 9% ‒ 13% dan kobalt sebanyak 10% ‒ 13%. Baterai lithium-ion yang dibuat menggunakan katoda NMC811 tersebut memiliki kapasitas masing-masing dengan variasi 20g/L sebesar 15,09 mAh/g, 30 g/L sebesar 28,42 mAh/g dan 40 g/L sebesar 25,57 mAh/g. Synthesis of LiNi0,8Mn0,1Co0,1O2 (NMC811) Cathode Material by Solid State Method Using Nickel Recovered from Spent Nickel Catalyst. Research on the synthesis of NMC811 cathode using nickel recovered from spent nickel catalyst was successfully carried out using the solid-state method with various ratios of solids spent nickel catalyst/solution used for leaching spent nickel catalyst (20 g/L, 30 g/L, and 40 g/L). The leaching process was carried out using 2 M lactic acid for 3 hours at a temperature of 80℃. The result of this process is lactic nickel filtrate with a precipitate of 1.50 grams, 6.10 grams, and 9.26 grams. There are hydroxide bonds and carboxylic bonds in the filtrate. The NMC811 cathode material formed has six diffraction peaks. The highest X-ray diffraction peak is at 2-theta of 15° ‒ 20° and 2-theta of 44°. The surface morphology of the NMC811 cathode material shows the formation of several lumps of non-uniform size. The composition of the cathode material shows that the NMC811 cathode has a nickel content of 73% ‒ 79%, manganese of 9% ‒ 13%, and cobalt of 10% ‒ 13%. The lithium-ion battery made using the NMC811 cathode has a capacity of 20g/L at 15.09 mAh/g, 30 g/L at 28.42 mAh/g, and 40 g/L at 25.57 mAh/g.

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用从斯宾塞•塞尼斯特获得的镍获得的镍获得坚实的状态合成材料linda 8mn0.1co0.1o2 (NMC811)

研究阴极LiNi0,8Mn0,1Co0,1O2 (NMC811)使用镍材料合成镍加泰罗尼亚已经成功度过的习得回来做固体用固态方法变化比较花镍溶液加泰罗尼亚-溶液(固体)用于leaching镍加泰罗尼亚度过大的(20 g / L, 30 g / L, 40 g / L)。leaching过程做用乳酸2米(6.5英尺)3个小时温度80℃。这一过程的结果是一个六盎司(1.50克)、6盎司(6.10克)和9 . 26克(9.26克)的结合液。片中含有氢氧化钠和羧酸带。形成的NMC811阴极物质有六个衍射峰值。x射线衍射峰最高有2日theta 15°- 20°,44°。NMC811阴极物质的表面形态表明，不均匀大小的不规则粒子的形成。阴卡托的材料成分表明，NMC811阴卡托的镍含量为73% - 79%，锰为9% - 13%和钴含量为10% - 13%。由NMC811阴离子制成的锂电池的容量为20g/L，体积为15g /L，体积为28.09 mAh/g，体积为28.42 mAh/g和40 g/L为2557 mAh/g。lini0.8mn0.1co0.1o2 (NMC811)，从斯宾尼布伦纳斯被要求使用五分镍币从斯宾塞塞特拉斯特获得的纯天主教材料。研究恩麦811天主教对斯宾塞·尼克尔从斯宾塞·尼克尔那里被发现的甲基苯丙胺的研究成功地运用了四分之一股份的甲基苯丙胺甲基苯丙胺四分之一股份的甲基苯丙胺混合疗法(20 g/L, 30 g/L, 40 g/L)。leaching的过程是用2米(6.5英尺)carried out lactic acid之为3小时at a温度80℃。这个过程的结果是缓慢的，精确的1.5克，6.10克，9.26克。filtrate里有氢氧化硫和碳化碳水化合物。NMC811材料的天主教有6个折扣点。最高x光diffraction峰是at 2-theta》15°- 20°和2-theta》44°。NMC811材料的表面形态展示了几个不均匀异体构成的形成。《天主教材料》的合集:恩麦811支天主教的比例为73%——79%，漫画为13%，钴为10%——13%。锂离子电池使用NMC811为20克/L的年龄，15.09年

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Alchemy: Jurnal Penelitian Kimia

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