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[1]
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Understanding the dependence of biochar properties on different types of biomass
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Waste Management,
2024 |
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[2]
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Evaluation of Solid-State Fermentation Conditions from Pineapple Peel Wastes to Release of Bioactive Compounds by Aspergillus niger spp.
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Rodríguez,
2024 |
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[3]
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Bromelain-loaded silver nanoparticles: Formulation, characterization and biological activity
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Inorganic Chemistry …,
2024 |
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[4]
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Fruit Waste: Potential Bio-Resource for Extraction of Nutraceuticals and Bioactive Compounds
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Bioactive Extraction and …,
2024 |
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[5]
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Production of Cellulosic Microfibers from Coffee Pulp via Alkaline Treatment, Bleaching and Acid Hydrolysis
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Quiroz, O Olivares-Xometl… - Materials,
2023 |
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[6]
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The use of cellulolytic Aspergillus sp. inoculum to improve the quality of Pineapple compost
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AIMS …,
2023 |
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[7]
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Mechanical Properties of Pineapple Nanocellulose/Epoxy Resin Composites
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Biology and Life …,
2023 |
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[8]
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Comparison of Phenolic and Volatile Compounds in MD2 Pineapple Peel and Core. Foods 2023, 12, 2233
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2023 |
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[9]
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BIOKONVERSI SELULOSA PADA LIMBAH BROMELIN NANAS MENJADI NANOKOMPOSIT HIDROGEL DENGAN PEMANFAATAN INDIGENOUS MARINE …
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2023 |
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[10]
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BIOKONVERSI SELULOSA DARI LIMBAH BROMELIN NANAS MENGGUNAKAN ISOLAT Actinomycetes MANGROVE TERPILIH MENJADI ASAM LAKTAT MELALUI …
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2023 |
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[11]
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Xylose Recovery from Pineapple Peel Biomass by Mild Acid Hydrolysis
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Chemical Engineering …,
2023 |
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[12]
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Microbial Valorization of Food Wastes to Value-Added Products
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Microbial Bioprocessing of Agri-food Wastes,
2023 |
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[13]
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Similarity Check The use of cellulolytic Aspergillus sp. inoculum to improve the quality of Pineapple compost
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2023 |
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[14]
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Study on synthesis of carboxymethyl cellulose from pineapple leaf waste and its potential applications as a thickener
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Vietnam Journal of …,
2023 |
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[15]
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Study on Conditions for Carboxymethyl Cellulose Synthesis from Pineapple Leaf Waste and Evaluation of its Thickening Performance
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VNU Journal of …,
2023 |
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[16]
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PINEAPPLE RESIDUES: A TRANSITION FROM REMNANTS TO THE REALM OF A BASKET OF CHEMICALS AND VALUE-ADDED PRODUCTS
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2023 |
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[17]
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Preparation of Cellulose Pineapple (Ananas comosus) Peel as Adsorbent of Remazol Yellow Dye
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Walisongo Journal of …,
2023 |
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[18]
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PEMANFAATAN LIMBAH BROMELIN NANAS UNTUK PRODUKSI NANOKOMPOSIT HIDROGEL MELALUI BIOKONVERSI SELULOSA MENGGUNAKAN ISOLAT …
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2023 |
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[19]
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Pengaruh Compost Tea (CT) di Induksi Inokulum Fungi Selulolitik Aspergillus sp. dan Ligninolitik Trichoderma sp. terhadap Pertumbuhan Tanaman Pakcoy (Brassica …
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2023 |
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[20]
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SINTESIS DAN KARAKTERISASI BIOFOAM DARI SELULOSA BONGGOL NANAS
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2023 |
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[21]
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Exploring pineapple peel hydrolysate as a sustainable carbon source for xylitol production
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Scientific Reports,
2023 |
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[22]
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Comparison of Phenolic and Volatile Compounds in MD2 Pineapple Peel and Core
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Foods,
2023 |
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[23]
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Linear and nonlinear modeling of kinetics and isotherm of malachite green dye adsorption to trimellitic-modified pineapple peel
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Materials Today: Proceedings,
2023 |
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[24]
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Extraction and characterization of bromelain from pineapple core: A strategy for pineapple waste valorization
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Processes,
2023 |
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[25]
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Fermented Pineapple Juice Consumption Limits Metabolic Disorders Associated to Sugary Drinks on High‐Fat Diet‐Fed Mice
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Molecular Nutrition & …,
2023 |
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[26]
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Influence of foliar application of nutrients and growth regulators on yield and quality in pineapple (Ananas comosus L.)
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Annals of Plant and Soil …,
2022 |
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[27]
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British Library Cataloguing-in-Publication Data
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2022 |
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[28]
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Xylitol production from pineapple cores (Ananas comosus (L.) Merr) by enzymatic and acid hydrolysis using microorganisms Debaryomyces hansenii and …
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Fermentation,
2022 |
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[29]
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Potential Lignocellulolytic Microfungi from Pineapple Plantation for Composting Inoculum Additive
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International Journal of …,
2022 |
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[30]
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Microbial biotechnology approaches for conversion of pineapple waste in to emerging source of healthy food for sustainable environment
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International Journal of …,
2022 |
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[31]
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Pineapple Agro-Industrial Biomass to Produce Biomedical Applications in a Circular Economy Context in Costa Rica
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Monge, S Goyanes, L Ribba, M Lopretti… - Polymers,
2022 |
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[32]
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Effect of the chemical treatment sequence on pineapple peel fiber: chemical composition and thermal degradation behavior
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Cellulose,
2022 |
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[33]
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Xylitol Production from Pineapple Cores (Ananas comosus (L.) Merr) by Enzymatic and Acid Hydrolysis Using Microorganisms Debaryomyces hansenii and Candida …
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Fermentation,
2022 |
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[34]
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Tropical agroindustrial biowaste revalorization through integrative biorefineries—review part II: pineapple, sugarcane and banana by-products in Costa Rica
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Arce… - Biomass Conversion …,
2022 |
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[35]
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Valorization of pineapple waste as novel source of nutraceuticals and biofunctional compounds
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Biomass Conversion …,
2022 |
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[36]
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Effect of ultrasound assisted extraction of dietary fiber from pineapple peel and its application with anthocyanin rich black rice
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Journal of Food …,
2022 |
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[37]
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Synthesis, characterization and cation exchange performance of chemically modified pineapple waste biomass for the removal of Fe (II) from water
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Results in …,
2022 |
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[38]
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Industrial applications of Ananas comosus wastes as valuable and utilizable products-A review
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Indian Journal of Natural Products and …,
2022 |
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[39]
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Vegetable and Fruit Wastes: Utilization in Novel Industrial Applications
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Fruits and Vegetable Wastes,
2022 |
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[40]
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Pineapple Agro-Industrial Wastes to Produce Biomedical Applications Post-COVID-19 Pandemic: Biorefinery and the Circular Economy
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Monge, S Goyanes, L Ribba,
2022 |
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[41]
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Growth, nutritive value and bioconversion efficiency of pre-pupal black solider fly fed on urban household and market waste
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East African Agricultural and …,
2022 |
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[42]
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Ananas comosus peel waste, a novel substrate of therapeutic potential: Evidences and prospects
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2022 |
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[43]
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Synthesis and characterization of carboxymethyl cellulose with high degree substitution from Vietnamese pineapple leaf waste
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Vietnam Journal of …,
2022 |
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[44]
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BROMELAIN YANG DIINDUKSI INOKULUM Aspergillus sp.(Bio GGP 3) TERHADAP PENEKANAN Phytophthora sp. DAN PERTUMBUHAN TANAMAN PAKCOY …
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2022 |
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[45]
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PENGARUH PEMBERIAN KOMPOS PADAT SAMPAH BROMELAIN TERINDUKSI Trichoderma sp.(BIOGGP 2, LIGNINOLITIK) DAN Aspergillus sp.(BIOGGP 3 …
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2022 |
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[46]
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KARAKTERISASI BIODEGRADABLE FILM DARI SELULOSA AMPAS BONGGOL NANAS DENGAN PENAMBAHAN POLYLACTIC ACID (PLA) DAN PERBANDINGAN …
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2022 |
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[47]
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Similarity Check Potential Lignocellulolytic Microfungi from Pineapple Plantation for Composting Inoculum Additive
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2022 |
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[48]
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Physicochemical stability of pineapple suspensions: the integrated effects of enzymatic processes and homogenization by shear
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Rodríguez… - Journal of Food Science …,
2022 |
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[49]
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Application of Bromelain Litter Solid Compost Induced by Ligninolitik Trichoderma SP. Fungus Towards Number of Leaves and Chlorophyl Content Chili Plants …
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… Hayati (J-BEKH),
2021 |
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[50]
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KEMAMPUAN KONSORSIUM BAKTERI TERPILIH DENGAN BERBAGAI BAHAN PEMBAWA TERHADAP KECEPATAN DEKOMPOSISI SULUR NANAS
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2021 |
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[51]
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BIOHYDROGEN PRODUCTION FROM ANAEROBIC FERMENTATION OF PINEAPPLE PEELS BY IMMOBILIZED CO-CULTURED BACTERIA
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2021 |
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[52]
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Vegetative Growth of Tomato (Lycopersicum Esculentum Mill.) Influenced by Aerated Compost Tea (Act) From Bromelain Litter Induced by Ligninolitic Trichoderma SP …
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Jurnal Ilmiah Biologi …,
2021 |
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[53]
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KEMAMPUAN KONSORSIUM ISOLAT BAKTERI TERPILIH DENGAN BERBAGAI BAHAN PEMBAWA TERHADAP KECEPATAN DEKOMPOSISI TANDAN KOSONG …
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2021 |
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[54]
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PENGARUH AERATED COMPOST TEA (ACT) SAMPAH BROMELAIN TERINDUKSI INOKULUM FUNGI LIGNINOLITIK Trichoderma sp. TERHADAP …
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2021 |
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[55]
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APLIKASI KOMPOS PADAT SAMPAH BROMELAIN TERINDUKSI FUNGI LIGNINOLITIK (Trichoderma sp.) PADA PERTUMBUHAN VEGETATIF TANAMAN CABAI …
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2021 |
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[56]
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Conversion of Agricultural Wastes into Biochar and Its Characteristics
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Biochar and its …,
2021 |
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[57]
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Unearthing the potential of solid waste generated along the pineapple drying process line in Uganda: A review
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2021 |
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[58]
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Pineapple Residue Ash Reduces Carbon Dioxide and Nitrous Oxide Emissions in Pineapple Cultivation on Tropical Peat Soils at Saratok, Malaysia
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2021 |
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[59]
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Microwave-assisted extraction of pectin from pineapple peel
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2021 |
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[60]
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Edible Packaging from Fruit Processing Waste: A Comprehensive Review
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2021 |
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[61]
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Pineapple (Ananas comosus L.) By-Products Valorization: Novel Bio Ingredients for Functional Foods
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2021 |
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[62]
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A sustainable approach to enhance fruit shelf‐life: Edible coating from pineapple fruit waste biomass
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2021 |
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[63]
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The Potential of Selected Agri-Food Loss and Waste to Contribute to a Circular Economy: Applications in the Food, Cosmetic and Pharmaceutical Industries
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2021 |
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[64]
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Lactic acid production ability of Lactobacillus sp. from four tropical fruits using their by-products as carbon source
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2021 |
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[65]
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Recent Updates on the Conversion of Pineapple Waste (Ananas comosus) to Value-Added Products, Future Perspectives and Challenges
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Agronomy,
2021 |
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[66]
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Pineapple processing waste (PPW): bioactive compounds, their extraction, and utilisation: a review
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Journal of Food Science and …,
2021 |
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[67]
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Isolasi dan Karakterisasi Selulosa Mikrokristal dari Nanas (Ananas comosus (L.) Merr)
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… : Jurnal Farmasi Indonesia (Pharmaceutical Journal of …,
2021 |
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[68]
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Agroindustrial Waste As Potential Source for Obtaining Nanocellulose
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Yumi, WP Holguin… - … : The Ecuadorian Journal …,
2021 |
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[69]
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Producción de un biocompuesto a base de almidón termoplástico de yuca amarga (Manihot Esculenta Crantz) y nanocelulosa obtenida de rastrojo de piña (Ananas …
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2021 |
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[70]
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El Papel de los Residuos Agrícolas en la Extracción de Nanocristales de Celulosa
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Revista Bases de la Ciencia. e …,
2021 |
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[71]
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Obtención de nanocristales de celulosa a partir de residuos agrícolas
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2021 |
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[72]
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APPLICATION OF BROMELAIN LITTER SOLID COMPOST INDUCED BY LIGNINOLITIK Trichoderma sp. FUNGUS TOWARDS NUMBER OF LEAVES AND …
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… Hayati (J-BEKH),
2021 |
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[73]
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VEGETATIVE GROWTH OF TOMATO (Lycopersicum esculentum Mill.) INFLUENCED BY AERATED COMPOST TEA (ACT) FROM BROMELAIN LITTER INDUCED BY …
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… Hayati (J-BEKH),
2021 |
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[74]
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Determination of kinetic parameters during the pineapple peel drying process
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2020 |
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[75]
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Determinação dos parâmetros cinéticos durante o processo de secagem da casca de abacaxi
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2020 |
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[76]
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Significance of alkaline treatment on the composition of mango seed shell fiber for polymer composite application
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2020 |
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[77]
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PINEAPPLE JAM PHYSICOCHEMICAL AND SENSORY EVALUATION WITH ADDED PINEAPPLE PEEL
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2020 |
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[78]
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Performance of Anaerobic Co-digestion of Pig Slurry with Pineapple (Ananas comosus) Bio-waste Residues
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2020 |
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[79]
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Quantification of Nutritional Composition and Some Antinutrient Factors of Banana Peels and Pineapple Skins
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2020 |
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[80]
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PENGOMPOSAN SERASAH NANAS (Ananas comosus (L.) Merr.) MENGGUNAKAN INOKULUM FUNGI Aspergillus sp.(SELULOLITIK) DENGAN MEDIA …
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2020 |
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[81]
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Biomolecules from Municipal and Food Industry Wastes: An Overview
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2019 |
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[82]
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ISOLASI DAN KARAKTERISASI FUNGI XILANOLITIK PADA SERASAH NANAS (Ananas comosus) DI PERKEBUNAN NANAS PT GREAT GIANT PINEAPPLE …
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2019 |
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[83]
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Hemicellulose based biorefinery from pineapple peel waste: Xylan extraction and its conversion into xylooligosaccharides
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2019 |
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[84]
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Sustainable Removal of Cr (VI) by Lime Peel and Pineapple Core Wastes
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2019 |
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[85]
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Biomass-Based Composites for Brake Pads: A Review
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2019 |
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[86]
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Pineapple shell fiber as reinforcement in cassava starch foam trays
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2019 |
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[87]
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Valorisation of carrot and pineapple pomaces for rock buns development
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2019 |
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[88]
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A Review of the Compositions, Processing, Materials and Properties of Brake Pad Production
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2019 |
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[89]
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Reviews in Automobile Brake Pads Production and Prospects of Agro Base Composites of Cashew Nut Shells and Nigerian Gum Arabic Binder.
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2019 |
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[90]
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Scientific African
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2019 |
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[91]
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OPTIMIZATION OF MICROWAVE-ASSISTED EXTRACTION OF PECTIN FROM PINEAPPLE PEEL
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2019 |
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[92]
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Reviews in Automobile Brake Pads Production and Prospects of Agro Base Composites of Cashew Nut Shells and Nigerian Gum Arabic Binder
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2019 |
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[93]
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A review of the Composition, Process, Materials and Properties of Brake Pad Production
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2019 |
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[94]
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MAPK signaling protein molecular target of Cordia macleodii Phytochemicals for Prevention of Chronic Diseases
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IOSR Journal of Engineering,
2018 |
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[95]
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Efficiency Improvement of Some Agricultural Residue Modified Materials for Textile Dyes Absorption
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IOP Conference Series: Materials Science and Engineering,
2018 |
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[96]
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Valorisation of pineapple wastes for food and therapeutic applications
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Trends in Food Science & Technology,
2018 |
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[97]
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Agricultural Residue Feedstock Selection for Polyhydroxyalkanoates Production using AHP-GRA
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2018 |
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[98]
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Pingkan Aditiawati1, Atmawi Darwis1, Tati Karliati1, Aminudin Sulaeman1, Enih Rosamah4 and Medyan Riza3 1Institut Teknologi Bandung, Bandung …
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2017 |
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[99]
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Value added processing and utilization of pineapple by-products
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2017 |
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[100]
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Pingkan Aditiawati1, Atmawi Darwis1, Tati Karliati1, Aminudin Sulaeman1, Enih Rosamah4 and Medyan Riza3 1Institut Teknologi Bandung, Bandung, West Java …
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2017 |
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[101]
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HARVEST BY-PRODUCTS OF FRESH FRUITS AND VEGETABLES
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2017 |
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[102]
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Optimización de cepas bacterianas aisladas de los arrozales de las marismas del Guadalquivir para su aplicación en la síntesis biotecnológica de precursores …
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2017 |
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[103]
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Biotechnological route for sustainable succinate production utilizing oil palm frond and kenaf as potential carbon sources
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Applied Microbiology and Biotechnology,
2017 |
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[104]
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Functional Applications of Lignocellulolytic Enzymes in the Fruit and Vegetable Processing Industries
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Journal of food science,
2017 |
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[105]
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Optimización de cepas bacterianas aisladas de los arrozales de las marismas del Guadalquivir para su aplicación en la síntesis biotecnológica de …
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2017 |
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[106]
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Bionanomaterial from agricultural waste and its application
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2017 |
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[107]
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PRODUCTION AND CHARACTERIZATION OF JUICE FROM PINEAPPLE POWDER
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Revista Brasileira de Produtos Agroindustriais, Campina Grande,
2017 |
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[108]
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Studies in Production and Application of Plant Protease
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2017 |
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[109]
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Optimización de cepas bacterianas aisladas de los arrozales de las marismas del Guadalquivir para su aplicación en la síntesis biotecnológica de precursores de polímeros utilizados en la fabricación de bioplásticos
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THESIS,
2017 |
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[110]
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Análisis de la capacidad de fermentación de los residuos de piña (ananas comosus) para la obtención de biogás
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2017 |
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[111]
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Agricultural waste fibers towards sustainability and advanced utilization: a review.
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2016 |
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[112]
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Agricultural Waste Fibers Towards Sustainability and Advanced Utilization: A Review
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Asian Journal of Plant Sciences,
2016 |
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[113]
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Rudi Dungani, Myrtha Karina, Subyakto, A. Sulaeman, Dede Hermawan and A. Hadiyane
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Asian Journal of Plant Sciences,
2016 |
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[114]
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Value added processing and utilization of pineapple by‐products
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2016 |
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[115]
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响应面法优化乳酸辅助提取菠萝皮果胶的工艺研究
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井冈山大学学报: 自然科学版,
2015 |
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[116]
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MODIFICATION OF PINEAPPLE FIBER AND APPLICATION IN DRUG DELIVERY
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2014 |
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[117]
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Application of crude leaf extracts of pineapple in pest control of field collected insects
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[118]
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Extracción de compuestos bioactivos de residuos de piña (Ananas comosus) usando fermentación en estado sólido
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[119]
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Pemanfaatan Daun Nanas Sebagai Biosorben Untuk Perbaikan Kualitas Air Gambut
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[120]
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TECNOLOGIAS DE PLANTIO E UTILIZAÇÃO
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[121]
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DEVELOPMENT OF COMPOSITE MATERIALS FOR TRICYCLE BRAKE PADS
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