Molecules at IgMin Research | General-science Group
We strive to cultivate connections between disciplines to foster new insights and advancements.
について
Molecules are the fundamental building blocks of matter, consisting of two or more atoms held together by chemical bonds. They play a crucial role across various scientific disciplines, including biology, medicine, engineering, and general sciences. Understanding molecular structures and interactions is essential for deciphering complex biological processes, developing new medical treatments, and engineering advanced materials. The study of molecules enables scientists to explore the intricacies of life at the molecular level, leading to innovations that can improve health outcomes and technological advancements.
In biology and medicine, molecules such as DNA, proteins, and enzymes are vital for genetic expression and metabolic functions. Engineers leverage molecular principles to create novel materials with specific properties, contributing to advancements in nanotechnology and materials science. In general sciences, molecular research fosters a deeper comprehension of chemical reactions and physical properties of substances. As a unifying theme, molecules bridge gaps between disciplines, facilitating interdisciplinary collaborations that drive scientific progress.
- ✓Molecular structure
- ✓ Molecular bonding
- ✓ Molecular interactions
- ✓ Molecular biology
- ✓ Molecular genetics
- ✓ Molecular medicine
- ✓ Molecular diagnostics
- ✓ Molecular imaging
- ✓ Molecular dynamics
- ✓ Molecular modeling
- ✓ Molecular engineering
- ✓ Molecular electronics
- ✓ Molecular spectroscopy
- ✓ Molecular pharmacology
- ✓ Molecular neuroscience
- ✓ Molecular pathology
- ✓ Molecular immunology
- ✓ Molecular ecology
- ✓ Molecular cloning
- ✓ Molecular synthesis
- ✓ Molecular materials
- ✓ Molecular recognition
- ✓ Molecular sensors
- ✓ Molecular self-assembly
- ✓ Molecular mechanisms
- ✓ Molecular transport
- ✓ Molecular chaperones
- ✓ Molecular nanotechnology
- ✓ Molecular orbital theory
- ✓ Molecular robotics
- ✓ Molecular communication
- ✓ Molecular catalysts
- ✓ Molecular photonics
- ✓ Molecular computing
- ✓ Molecular magnets
- ✓ Molecular dynamics simulations
- ✓ Molecular crowding
- ✓ Molecular biomarkers
- ✓ Molecular epigenetics
- ✓ Molecular endocrinology
- ✓ Molecular virology
- ✓ Molecular taxonomy
- ✓ Molecular crystal engineering
- ✓ Molecular heat transfer
- ✓ Molecular thermodynamics
- ✓ Molecular vibrational analysis
- ✓ Molecular fluids
- ✓ Molecular rheology
- ✓ Molecular assembly
- ✓ Molecular design.
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研究論文
- Study of the Histological Features of the Stroma of High-Grade Gliomas Depending on the Status of the Mutation in the IDH1 Gene
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