| Bahan Kajian | - Simetri dan teori group: operasi dan elemen simetri, point group, sifat dan representasi group, aplikasi (kekiralan, dan spektroskopi)
- Orbital Molekul (MO): pembentukan MO, pendekatan group orbitals, MO untuk H2O, NH3, CH4, BF3, dll - Orbital molekul parsial
- Pendekatan MO pada senyawa kompleks - Ikatan sigma pada kompleks - Ikatan phi pada kompleks
- Senyawa organometalik - Berbagai tipe ligan dan modus ikatannya - Reaksi-reaksi organometalik
- Kimia asam-basa - Konsep asam-basa - Asam-basa dan frontier orbitals - Interaksi antar molekul - Asam-basa keras-lunak
- Kimia zat padat - Sintesis padatan - Cacat dan transfor ion - Okida logam, nitrida dan flurida - Hidrida dan material penyimpan hidrogen - Pigmen anorganik - Semikonduktor - Material molekuler
| - Symmetry and group theory: symmetry operations and elements, point groups, properties and representations of groups, applications (chirality and spectroscopy)
- Molecular Orbitals (MO): formation of molecular orbitals, group orbital approach, molecular orbitals for H₂O, NH₃, CH₄, BF₃, etc., partial molecular orbitals
- MO approach to complex compounds: sigma bonding in complexes, pi bonding in complexes
- Organometallic compounds: various types of ligands and their bonding modes, organometallic reactions
- Acid–base chemistry: acid–base concepts, acid–base interactions and frontier orbitals, intermolecular interactions, hard–soft acid–base theory
- Solid-state chemistry: solid synthesis, defects and ion transport, metal oxides, nitrides, and fluorides, hydrides and hydrogen storage materials, inorganic pigments, semiconductors, molecular materials
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| Capaian Pembelajaran Mata Kuliah (CPMK) | - Mampu menentukan point group setiap molekul serta menggunakan elemen simetri untuk memperkirakan kekiralan suatu senyawa.
- Mampu menggunakan tabel karakter untuk analisis spektrum IR dan raman senyawa anorganik.
- Mampu menggambarkan orbital molekul untuk poliatomik dan parsial senyawa kompleks.
- Mampu mengambarkan ikatan antara atom pusat dan ligan pada senyawa organometalik, serta memahami jenis-jenis reaksi organometalik.
- Mampu memahami konsep asam-basa untuk reaksi-reaksi anorganik, serta aplikasinya dalam kestabilan dan kelarutan senyawa anorganik.
- Mampu menjelaskan prinsip metoda sintesis untuk senyawa padatan anorganik, serta prinsip-prinsip teknik karakterisasi senyawa anorganik.
- Mampu memahami referensi utama, serta mengeksplorasi referensi pendukung terkait topik simetri dan teori group, orbital molekul, teori ikatan, teori asam-basa, teknik-teknik sintesis dan karakterisasi senyawa anorganik.
| - Able to determine the point group of molecules and use symmetry elements to predict the chirality of compounds.
- Able to use character tables for the analysis of IR and Raman spectra of inorganic compounds.
- Able to construct molecular orbitals for polyatomic molecules and partial molecular orbitals of complex compounds.
- Able to illustrate bonding between central atoms and ligands in organometallic compounds and understand the types of organometallic reactions.
- Able to understand acid–base concepts in inorganic reactions and their applications in the stability and solubility of inorganic compounds.
- Able to explain the principles of synthesis methods for inorganic solid compounds and the principles of characterization techniques for inorganic compounds.
- Able to understand primary references and explore supporting references related to symmetry and group theory, molecular orbitals, bonding theory, acid–base theory, and synthesis and characterization techniques of inorganic compounds.
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