-
Fluorescence Microscope
A fluorescence microscope is an essential tool in science and technology, enabling high-resolution imaging of samples using fluorescence techniques. It is widely used in biology, chemistry, and materials science for analyzing cell structures, molecular imaging, and sample analysis. By exciting specific molecules and selectively detecting fluorescence, it provides valuable insights into biological samples and their…
-
Confocal Microscope
Embark on a fascinating journey into the world of confocal microscopy. Discover its role in high-resolution imaging, sample preparation, and applications in biology, chemistry, and materials science. Uncover the groundbreaking advancements made possible by selectively detecting fluorescence, enabling detailed study of biological samples and components. Witness the transformative power of confocal microscopy in unlocking the…
-
Transmission Electron Microscope (TEM)
Embark on a journey through the world of transmission electron microscopy (TEM). Explore its significance in materials science, biology, and chemistry. Discover the remarkable high-resolution imaging capabilities, sample preparation, and applications across various fields. Uncover the instrumental role of TEM in advancing scientific knowledge and understanding through its ability to reveal the internal structure of…
-
Scanning Electron Microscope (SEM)
Discover the powerful world of scanning electron microscopy (SEM). Explore its working principle, from the electron gun to image analysis. Uncover its applications in materials science, biology, geology, and semiconductor manufacturing. Gain insights into the remarkable high-resolution imaging capabilities of SEM and its significant impact on scientific discoveries and advancements.
-
X-ray Diffraction Technique
The X-ray diffraction (XRD) technique is a powerful tool for studying the structure of crystalline materials. It works by shining X-rays on a crystalline material and detecting the diffracted X-rays on a detector, creating a pattern of diffraction peaks. The angle and intensity of these peaks can be used to determine the crystal structure, unit…
-
Imbibition
Imbibition is a fascinating process observed in both plants and materials science. It involves the absorption of liquid by solids, resulting in interesting phenomena such as seed germination, polymer swelling, and capillary action. Understanding imbibition provides insights into various natural and synthetic systems, contributing to advancements in agriculture, materials engineering, and more.
Categories
- Anatomy (9)
- Animal Form and Functions (38)
- Animal Physiology (65)
- Biochemistry (33)
- Biophysics (25)
- Biotechnology (52)
- Botany (42)
- Plant morphology (6)
- Plant Physiology (26)
- Cell Biology (107)
- Cell Cycle (14)
- Cell Signaling (21)
- Chemistry (9)
- Developmental Biology (36)
- Fertilization (13)
- Ecology (5)
- Embryology (17)
- Endocrinology (10)
- Environmental biology (3)
- Genetics (59)
- DNA (27)
- Inheritance (13)
- Histology (3)
- Hormone (3)
- Immunology (29)
- life science (76)
- Material science (8)
- Microbiology (18)
- Virus (8)
- Microscopy (18)
- Molecular Biology (113)
- parasitology (6)
- Physics (3)
- Physiology (11)
- Plant biology (26)
- Uncategorized (7)
- Zoology (112)
- Classification (6)
- Invertebrate (7)