The Department of Chemical Engineering is based on chemistry, which examines the properties of materials and how they change. Our lives are made more convenient and enriched by sophisticated and multifunctional products, but chemistry supports all of these products. In addition, in order to continue such a convenient life into the future, products that are not only highly functional and multifunctional, but also environmentally friendly are required.

Material chemistry will be based on the fundamentals of all fields that support all modern life, such as food, medicine, environmental protection, energy, information, and materials, and the limited resources on the earth. It plays a role in maintaining a prosperous life throughout the world. I want to learn the fun and important mission of chemistry and grow into an imaginative person.

The Department of Materials and Chemical Engineering is based on the foundations of all fields that support all of modern life, such as food, medicine, environmental protection, energy, information, and materials, and finite resources on the earth. We are developing engineers who will play a role in maintaining a prosperous life for the future. Regarding graduation research in the fifth grade, in 2018, graduation research was promoted under the following themes.

• Effect of co-solvent BDF on biodiesel fuel (BDF) synthesis using scallop shells
• Circulation BDF synthesizer using scallop shell
• Effect of spin coating conditions on morphology of template film for porous oxide film
• Synthesis of diamond by simple hot filament CVD method (VII)
• Study on Radical Copolymerization of Phenylethynylstyrene Derivative Having Two Fluorines-On 4-(2-(2,5-Difluorophenyl) ethynyl) styrene-
• Synthesis of New Phenylethynylstyrene Derivatives Having a Cyano Group-On 4-(2-(4-Cyanophenyl) ethynyl) styrene −
• Synthesis of New Phenylethynylstyrene Derivative Having One Fluorine フ ッ 素-On 4-(2-(3-Fluorophenyl) ethynyl) styrene −
• Synthesis of New Phenylethynylstyrene Derivatives Having Three Fluorines フ ッ 素--On 4-(2-(2,4,6-Trifluorophenyl) ethynyl) styrene-
• Synthesis of self-assembled polyaspartic acid using host-guest interaction
• Evaluation of temperature responsiveness of polyaspartic acid derivatives with different amine side chains
• Search for crystallization conditions of decarboxylase PhcG from lignin-degrading bacteria
• Search for crystallization conditions of microbial double bond reductase PlDBR
• Screening of thermostable phytase using halo test
• Analysis of hydroponics and wastewater treatment in Asahikawa National College of Technology
• Spectroscopic evaluation of chlorine anodic oxidation based on biomimetics
• Structural analysis and capacitance evaluation of multilayer graphene containing metal by FIB-SEM
• Cathode electrolytic reaction using metal-encapsulated multilayer graphene
• Development of microelectrolytic sensor for dissolved oxygen using biocompatible materials
• Development of hypochlorous acid sensor using carbon paste electrode
• Development of polymer materials using hydrocarbons from green alga Botryococcus braunii
• Isolation and proliferative evaluation of aquatic microorganisms from Asahikawa Kitasaito Garden Oike
• Effects of culture temperature of Aurantiochytrium sp. NBRC102614 on fatty acids produced
• Effects of changes in oxygen transfer capacity coefficient of Aurantiochytrium sp. NBRC102614 on fatty acids produced
• Methane Direct Decomposition Reaction Using Microwave Heating-Development of Low Power Oscillation Type Catalyst-
• Development of greenhouse gas conversion process using microwave heating
• Evaluation of electromagnetic wave heating characteristics of carbonaceous materials and development of temperature control method
• ⽔ Synthesis of various poly (pyrylenemethine) and evaluation of pH responsiveness
• Fluorescence chiral sensing using CdSe/ZnS quantum dots surface-modified with polyethylene glycol chains and chiral amino groups
• Synthesis of poly (phenylacetylene) with amide group derived from L-glutamine and evaluation of its ability to recognize colorimetric chiral
• Colorimetric chiral recognition of poly (phenylacetylene) with chiral amide receptor derived from (S)-mandelic acid
• Synthesis and functional evaluation of poly (phenylacetylene) having chiral sulfonamide receptor
• Preservation of four kinds of Aspergillus fungi used in fermentation industry in pure water
• Preservation of Pleurotus ostreatus strains in pure water-Observation of vegetative and reproductive growth of regenerated mycelium-
• Possibility of storing Shiitake mushroom mycelium in pure water and freezing at-20 to-30 ℃
• Preservation of black fungi (Aureobasidium spp., Cladosporium sp.) in pure water
• Corrosion Behavior of Bridge Structural Materials in Cyclic Dry and Wet Environments
• Development of Pure Iron Corrosion Protection Surface Coating with Scratch Shield Mechanism
• Development of self-healing coatings for metal corrosion protection--Synthesis of oval capsules by heat treatment-
• Synthesis of microcapsules containing hardener for construction of space inflatable structure
• Preparation of particles with highly ordered surfaces using colloidal crystals
• Structural control of porous structure composed of copper fine particles
• Electrochemical behavior of metal electrode in ionic liquid
• Electrophoretic study on the oyster egg shell
• Zymography analysis of reproductive proteases in aquatic vertebrates

Department in charge: Department of Materials and Chemical Engineering