Kode Mata KuliahKI3021 / 3 SKS
Penyelenggara105 - Kimia / FMIPA
KategoriKuliah
Bahasa IndonesiaEnglish
Nama Mata KuliahMetodologi Penelitian Kimia AnalitikMethodology of Analytical Chemistry Research
Bahan Kajian
  1. Pengantar Kimia Analitik
  2. Prosedur Keselamatan di Laboratorium Kimia Analitik
  3. Prinsip Dasar Kromatografi
  4. Kromatografi Gas (GC)
  5. Kromatografi cair kinerja tinggi (HPLC)
  6. Ekstraksi
  7. Spektroskopi UV-Vis
  8. Spektroskopi IR
  9. Potensiometri dan Voltammetri
  10. Perancangan dan Pelaksanaan Mini Project
  11. Kemajuan-1,2,3,4,5 mini project
  12. Laporan akhir mini project
  1. Introduction to Analytical Chemistry
  2. Laboratory Safety Procedures in Analytical Chemistry
  3. Basic Principles of Chromatography
  4. Gas Chromatography (GC)
  5. High-Performance Liquid Chromatography (HPLC)
  6. Extraction
  7. UV-Vis Spectroscopy
  8. IR Spectroscopy
  9. Potentiometry and Voltammetry
  10. Design and Implementation of Mini Projects
  11. Progress Reports 1, 2, 3, 4, 5 of the Mini Project
  12. Final Report of the Mini Project
Capaian Pembelajaran Mata Kuliah (CPMK)
  1. Mahasiswa memahami pentingnya kimia analitik dan aplikasinya dalam berbagai bidang penelitian, serta mengenal berbagai teknik analitik dasar.
  2. Mahasiswa menguasai prosedur keselamatan kerja di laboratorium kimia analitik, termasuk penanganan bahan kimia berbahaya dan manajemen limbah laboratorium
  3. Mahasiswa memahami prinsip dasar kromatografi dan mengetahui aplikasi dari teknik pemisahan dengan kromatografi, mencakup kromatografi lapis tipis (TLC), GC, dan HPLC dalam pemisahan senyawa.
  4. Mahasiswa menguasai prinsip kerja dan aplikasi kromatografi gas (GC) dalam analisis senyawa volatil.
  5. Mahasiswa memahami prinsip kerja dan aplikasi kromatografi cair kinerja tinggi (HPLC) dalam analisis campuran kompleks.
  6. Mahasiswa memahami prinsip dasar dan aplikasi teknik ekstraksi cair-cair dan cair-padat, termasuk faktor-faktor yang mempengaruhi efisiensi ekstraksi seperti pH dan pelarut, serta menguasai teknik praktis ekstraksi cair-cair, seperti pemilihan pelarut dan multiple extraction, serta teknik ekstraksi cair-padat seperti Soxhlet extraction dan perkolasi.
  7. Mahasiswa memahami prinsip dan aplikasi spektroskopi UV-Vis dalam analisis kuantitatif dan kualitatif senyawa kimia.
  8. Mahasiswa menguasai prinsip dan aplikasi spektroskopi inframerah (IR) dalam identifikasi gugus fungsi senyawa kimia.
  9. Mahasiswa menguasai teknik potensiometri dan voltammetri serta aplikasinya dalam analisis kimia.
  10. Mahasiswa mampu merancang dan melaksanakan mini project yang melibatkan teknik-teknik analitik yang telah dipelajari.
  11. Mahasiswa mengutarakan kemajuan pekerjaan mini project termasuk kendala-kendala yang dihadapinya.
  12. Mahasiswa mempresentasikan hasil mini project di kelas dan menyusun laporan akhir yang mencakup seluruh pekerjaan
  1. Students understand the importance of analytical chemistry and its applications in various research fields, as well as become familiar with various fundamental analytical techniques.
  2. Students master laboratory safety procedures in analytical chemistry, including handling hazardous chemicals and managing laboratory waste.
  3. Students understand the basic principles of chromatography and know the applications of separation techniques using chromatography, including Thin-Layer Chromatography (TLC), GC, and HPLC in compound separation.
  4. Students master the principles and applications of gas chromatography (GC) in the analysis of volatile compounds.
  5. Students understand the principles and applications of high-performance liquid chromatography (HPLC) in the analysis of complex mixtures.
  6. Students understand the basic principles and applications of liquid-liquid and liquid-solid extraction techniques, including factors affecting extraction efficiency such as pH and solvents, and master practical techniques of liquid-liquid extraction such as solvent selection and multiple extraction, as well as liquid-solid extraction techniques like Soxhlet extraction and percolation.
  7. Students understand the principles and applications of UV-Vis spectroscopy in quantitative and qualitative analysis of chemical compounds.
  8. Students master the principles and applications of infrared (IR) spectroscopy in identifying functional groups in chemical compounds.
  9. Students master potentiometry and voltammetry techniques and their applications in chemical analysis.
  10. Students are able to design and implement a mini project involving the analytical techniques studied.
  11. Students report on the progress of their mini project, including any challenges encountered.
  12. Students present their mini project results in class and compile a final report that includes all work.
Metode PembelajaranCeramah Diskusi Tanya Jawab Mini projectLectures Discussions Q&A Mini Project
Modalitas PembelajaranLuring (tatap muka) Daring AsinkronSynchronous Offline Asynchronous Online
Jenis NilaiABCDE
Metode PenilaianMini project (50%), Laporan mini project (50%)Mini Project (50%), Mini Project Report (50%)
Catatan Tambahan