Researcher Profile

NoProfileLecturersResearch TopicPublication Link
1Dr. Setia Budi, M.Sc.Nanostructured materialsSINTA
2Dr. Yusmaniar, M.Si.Biodegradable and absorber materialSINTA
3Dr. Afrizal, M.Si.Polymer composite materialSINTA
4Arif Rahman, M.Sc.ZeoliteSINTA

Research Grants

No.NameYearSchemeResearch Title
1Dr. Yusmaniar, M.Si2019DiktiSynthesis of Core Shell Fe3O4@SiO2 Composite from Natural Materials as Microwave Absorbers
2020BLU UniversitySynthesis of Environmentally Friendly Adhesives From Natural Materials
2020BLU FMIPASynthesis of Environmentally Friendly Adhesives From Coconut
2020DiktiSynthesis of Core Shell Fe3O4@SiO2 Composite from Natural Materials as Microwave Absorbers
2021BLU FMIPAManufacture of chitosan pva composites with modified nanocellulose as biodegradable packaging
2022BLU FMIPAEnvironmental Friendly Adhesive Synthesis From Phenol Formaldehyde Extender / Lignin Composite
2023BLU FMIPASynthesis of Cellulose Microcrystalline Chitosan Film Composites from Coconut Fiber (Cocos Nucifera)
2Dr. Setia Budi, S.Si, M.Sc2019BLU UniversitySynthesis of AgPt Nanostructures as Photocatalyst in the Decomposition of Methyl Orange Synthetic Dyes
2019DiktiElectrodeposition of Cu2O Nanostructure as a catalyst in Alcohol Electrooxidation process
2019DiktiSynthesis of FeCoNi alloy nanostructures for magnetic data storage applications
2019DiktiPolyaniline/FeCoNi Nanocomposite Electrodeposition as Microwave Absorber
2020DiktiPolyaniline/FeCoNi Nanocomposite Electrodeposition as Microwave Absorber
2020DiktiElectrodeposition of Cu2O Nanostructure as a catalyst in Alcohol Electrooxidation process
2020BLU UniversitySynthesis of AuPt Nanoparticles as Photocatalyst in the Decomposition of Synthetic Dyes Methylene Blue
2021BLUElectrodeposition of Gold Nanoparticle and Its Application as an Antioxidant Agent
2021DiktiPolyaniline/FeCoNi Nanocomposite Electrodeposition as Microwave Absorber
2022KEMDIKBUDElectrodeposition of Polyaniline/FeCoNi Nanocomposites As Microwave Absorbent Coatings
2022BLU UNJMANUFACTURE OF ETHANOL FUEL CELL USING NANO-STRUCTURED ELECTROCATALYST
2022KEMDIKBUDManufacture of M-Doped Cu2O/CoNi Nanostructures for Photocatalysts in the Design of Textile Dye Waste Treatment Devices.
2023BLU UNJELEKTRODEPOSISI NANOPARTIKEL EMAS SEBAGAI AGEN ANTIOKSIDAN
2023KEMDIKBUDManufacture of M-Doped Cu2O/CoNi Nanostructures for Photocatalysts in the Design of Textile Dye Waste Treatment Devices.
2023BRINMANUFACTURING NANO-STRUCTURED PtAU ELECTRODES FOR ELECTROCATALYST APPLICATIONS IN DIRECT ETHANOL FUEL CELL (DEFC)
3Arif Rahman, M.Sc2019BLU UniversitySynthesis of Chitosan-Montmorillonite Composite and Its Application as a High Performance Adsorbent for Reactive Dyes
2021BLU FMIPAAmpicillin Antibiotic Waste Degradation By further chemical oxidation using Zeolite X from Local Bauxite as a Catalyst
4Dr.Afrizal, S.Si, M.Si2019DiktiStudy of Synthesis of Thin Layer Film of Cholesterol Acrylate Liquid Crystal Monomer and Its Polymerization Using Indium Titan Oxide (ITO) as Coating Material
2019BLU UniversitySynthesis and Characterization of Blending Cholesterol Acrylate With Indium Tin Oxide (ITO) Nanoparticles As Sensor Material
2020BLU FMIPASynthesis and Characterization of Blending Methyl Methacrylate - Indium Tin Oxide (PMMA-ITO) Nanoparticles as Sensor Material
2021BLU UniversityModification of Indium Tin-Oxide/Methyl Methacrylate Nanoparticles with Polyethylene-Block-Polyethylene Glycol as Heat Storage Nanocomposite and Sensor
2022BLU UniversityStudy of Photopolymerization of Methyl Methacrylate Monomer and Blending with RM-257 Reactive Mesogen for Humadity Sensor Applications
2023BLU UniversityCharacterization of Reactive Mesogen Liquid Crystal Polymer Composites RM257-Methyl Methacrylate As Moisture Sensor Material
2023KEMDIKBUDStudy of Synthesis of Methyl Methacrylate Polymer Composite Membrane with RM 82 Reactive Mesogen Liquid Crystals and Characterization as Electrolyte Polymer Membrane

Research Roadmap

Materials Chemistry is one of the areas of specialization in the chemistry study program which has three research groups as follows:

  1. Nanostructured Materials/NMs Research Group
  2. Polymer Composites Research Group
  3. Microwave Absorber Materials Research Group

NMs Research Group conducts research that is focused on developing materials synthesis techniques in the form of nanostructured thin films using the electrodeposition method. Thin films based on metals, metal oxides and their composites are made to produce stable materials with high catalytic performance in photocatalytic and electrocatalytic applications as indicated in the nanocatalyst research roadmap. In addition to catalysts, this group also examines other application nanostructure materials, namely antioxidants and antimicrobials.

Documentation

Posters