Utilization of wild algae biomass as biosorbent for removal of heavy metal Zinc (Zn<sup>2+</sup>) from aqueous solution

Maisarah,; Adityosulindro, Sandyanto; Wulandari, Dyah Arum

doi:10.1088/1755-1315/824/1/012017

Cited by 5 publications

(2 citation statements)

References 18 publications

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“…12,13 Various routes for synthesizing iron oxide nanoparticles have been proposed over the past decades, where MNPs can be prepared either by top-down or bottom-up methodologies. 14 The aqueous precipitation method is a bottom-up, costeffective, fast process and easily expandable to an industrial level. 15,16 Compared to other synthetic routes, the precipitation pathway is generally preferred due to its high yield, facile control, and very-low-cost production.…”

Section: Introductionmentioning

confidence: 99%

Toward the Separation of Different Heating Mechanisms in Magnetic Particle Hyperthermia

et al. 2023

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Magnetic particle hyperthermia (MPH) is a promising method for cancer treatment using magnetic nanoparticles (MNPs), which are subjected to an alternating magnetic field for local heating to the therapeutic range of 41−45 °C. In this window, the malignant regions (i.e., cancer cells) undergo a severe thermal shock while healthy tissues sustain this thermal regime with significantly milder side effects. Since the heating efficiency is directly associated with nanoparticle size, MNPs should acquire the appropriate size to maximize heating together with minimum toxicity. Herein, we report on facile synthetic controls to synthesize MNPs by an aqueous precipitation method, whereby tuning the pH values of the solution (9.0−13.5) results in a wide range of average MNP diameters from 16 to 76 nm. With respect to their size, the structural and magnetic properties of the MNPs are evaluated by adjusting the most important parameters, i.e. the MNP surrounding medium (water/agarose), the MNP concentration (1−4 mg mL −1 ), and the field amplitude (20−50 mT) and frequency (103, 375, 765 kHz). Consequently, the maximum heating efficiency is determined for each MNP size and set of parameters, outlining the optimum MNPs for MPH treatment. In this way, we can address the different heat generation mechanisms (Brownian, Neél, and hysteresis losses) to different sizes and separate Brownian and hysteresis losses for optimized sizes by studying the heat generation as a function of the medium viscosity. Finally, MNPs immobilized into agarose solution are studied under low-field MPH treatment to find the optimum conditions for clinical applications.

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Section: Introductionmentioning

confidence: 99%

Toward the Separation of Different Heating Mechanisms in Magnetic Particle Hyperthermia

et al. 2023

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“…LCA dapat membantu memilih proses dan teknologi yang memiliki dampak lingkungan yang lebih rendah, sehingga LCA dapat digunakan sebagai salah satu pertimbangan sebagai pengambilan keputusan yang tepat. Salah satunya penggunaan bahan-bahan berbasis alam dan metode yang menghasilkan emisi gas terendah yang dapat mengurangi tingkat pemanasan global / GWP menjadi salah satu pertimbangan pengambilan keputusan yang dapat diambil (Maisarah et al, 2021).…”

Section: Pendahuluanunclassified

Metode Life Cycle Assessment (LCA) Dalam Penilaian Dampak Lingkungan Industri Kelapa Sawit Untuk Kelapa Sawit Berkelanjutan

Maisarah,

Dian

2024

Tabela j. Pertan. Berkelanjutan

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Konsumsi energi dan penghasilan emisi gas rumah kaca telah menghasilkan peningkatan polutan ke lingkungan dari limbah kegiatan industri, salah satunya industri kelapa sawit yang sangat masif di Indonesia. Life Cycle Assessment (LCA) atau Penilaian Siklus Hidup merupakan metode yang dapat digunakan untuk menganalisis dampak lingkungan dari proses produksi pada industri kelapa sawit. Industri kelapa sawit dapat memberikan dampak terhadap lingkungan, seperti pencemaran udara akibat mesin, pencemaran air dan tanah akibat penggunaan pupuk dan pestisida, serta konsumsi air yang berlebihan. Tetapi hal ini dapat diatasi dengan menilai dan mendeteksi pada tahapan mana di industri kelapa sawit yang menjadi kontributor utama. Artikel ini memaparkan penerapan LCA pada sektor perkebunan kelapa sawit sebagai pendukung pengambil keputusan. Pendekatan Preferred Reporting Items for Systematic Reviews and Meta-analysis Item (PRISMA) digunakan untuk mengidentifikasi, menyaring, dan memasukkan artikel yang relevan. Mengidentifikasi artikel terkait penilaian siklus hidup di sektor perkebunan kelapa sawit yang memenuhi syarat untuk analisis menjadi salah satu metode penulisan. Temuan menunjukkan bahwa tren penelitian tentang LCA di sektor perkebunan kelapa sawit terbagi atas subsistem perkebunan kelapa sawit dan industri pabrik kelapa sawit. Dampak lingkungan yang ditemukan dalam artikel tersebut adalah parameter global warming potential (GWP dan asidifikasi. Didapatkan hasil bahwa penilaian LCA dapat menjadi salah satu pendukung pengambilan keputusan dengan berorientasi pada dampak lingkungan negatif terkecil yang dihasilkan dari suatu proses. Didapatkan bahwa pada industri kelapa sawit tahapan yang menghasilkan GWP terbesar ialah proses pemupukan dan pengelolaan limbah POME, sehingga pengambilan keputusan kedepannya dapat mempertimbangkan proses tersebut.

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Preliminary study of paracetamol removal from water using wild algae biomass

Hamidi,

Adityosulindro,

Wulandari

2024

The 17th International Conference on Quality in Research (Qir) 2021 in Conjunction With the 6th Itrec 2021 and the 2nd Caic-Siu

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Utilization of wild algae biomass as biosorbent for removal of heavy metal Zinc (Zn²⁺) from aqueous solution

Cited by 5 publications

References 18 publications

Toward the Separation of Different Heating Mechanisms in Magnetic Particle Hyperthermia

Toward the Separation of Different Heating Mechanisms in Magnetic Particle Hyperthermia

Metode Life Cycle Assessment (LCA) Dalam Penilaian Dampak Lingkungan Industri Kelapa Sawit Untuk Kelapa Sawit Berkelanjutan

Preliminary study of paracetamol removal from water using wild algae biomass

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Utilization of wild algae biomass as biosorbent for removal of heavy metal Zinc (Zn2+) from aqueous solution

Cited by 5 publications

References 18 publications

Toward the Separation of Different Heating Mechanisms in Magnetic Particle Hyperthermia

Toward the Separation of Different Heating Mechanisms in Magnetic Particle Hyperthermia

Metode Life Cycle Assessment (LCA) Dalam Penilaian Dampak Lingkungan Industri Kelapa Sawit Untuk Kelapa Sawit Berkelanjutan

Preliminary study of paracetamol removal from water using wild algae biomass

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Product

Resources

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Utilization of wild algae biomass as biosorbent for removal of heavy metal Zinc (Zn²⁺) from aqueous solution