Free tools to create, edit and explore clipart - only on Clipart Library.
Collection of Molecules Cliparts (39)
Looking for Molecules Cliparts? Here you will find a carefully collected gallery of free images in high quality. Each Molecules Cliparts can be downloaded for school projects, presentations, websites or creative designs. Need a custom image? Try our free image generator. These cliparts are free for personal use. Please read the full terms of use.
Curated clip art focused on molecules, including crisp transparent PNGs and simple vectors suitable for classroom printouts, slides, and web use.
A stylized 3D representation of a trigonal bipyramidal molecule, commonly used to visualize atomic bonding in chemistry.
A ball-and-stick model of the caffeine molecule, with carbon (gray), nitrogen (blue), oxygen (red), and hydrogen (green) atoms clearly labeled.
A detailed 3D rendering of a molecular compound, with color-coded atoms and bond types (single, double, triple) for educational insight.
A simplified 3D-style molecular model showing a central atom bonded to four surrounding atoms in a tetrahedral arrangement.
A detailed 3D ball-and-stick representation of lactic acid (C₃H₆O₃), highlighting its carboxyl and hydroxyl functional groups.
A stylized Bohr model depicting three electrons moving in elliptical orbits around a central nucleus.
A simplified ball-and-stick model showing covalent bonding in a small organic molecule-red = carbon, green = oxygen, pink = nitrogen, blue = hydrogen.
A simplified Bohr model showing a central nucleus (yellow) surrounded by three electron orbits (blue), commonly used to introduce atomic theory.
A stylized, colorful molecular model showing interconnected atoms-perfect for illustrating chemistry, biology, or digital networks.
A simplified 3D model of a molecular lattice, with uniform purple spheres representing atoms in close-packed configuration.
A 3D representation of ethanol, highlighting its two carbon atoms (gray), six hydrogen atoms (white), and one hydroxyl oxygen (also white, bonded to carbon).
A ball-and-stick model of salicylic acid, illustrating its ortho-hydroxybenzoic acid structure with key functional groups clearly labeled by atom color.
A single red particle exits the beaker, demonstrating how molecules move from areas of high concentration to low concentration over time.
A simple yet effective network graph showing six nodes (three orange, three yellow) connected by black lines, centered around a key hub node.
A 3D model of a water molecule (H₂O), showing its characteristic bent shape with oxygen (red) and hydrogen (white) atoms.
A 3D schematic of a crystal lattice, where red spheres represent one atom type (e.g., oxygen) and blue spheres another (e.g., metal), connected by covalent or ionic bonds.
A computer-generated model of a crystalline solid, where green spheres represent one atom type and blue spheres another, arranged in a repeating lattice.
A stylized depiction of an active chemical reaction, perfect for visualizing lab experiments in educational materials.
A clean, modern composition of irregularly spaced black rings with the stylized text “aDrlaNa” beneath-perfect for design inspiration.
A stylized representation of molecular connectivity, showing atoms as nodes and bonds as links in a complex network.
A clear, stylized 3D representation of a water molecule (H₂O), showing oxygen (red) and hydrogen (white) atoms in a bent geometry.
Pyrrole molecule: a planar, aromatic five-membered ring with one nitrogen atom and four carbon atoms.
A schematic representation of a crystalline lattice structure, showing atomic positions (nodes) and bonding interactions (edges) in a cubic unit cell.
A simplified 3D ball-and-stick model showing one oxygen atom (red) bonded to two hydrogen atoms (white), illustrating the bent geometry of water.
A modern, gear-enhanced microscope design representing precision, discovery, and the mechanics of scientific inquiry.
A realistic 3D rendering of a carbon dioxide (CO₂) molecule, illustrating its linear geometry and covalent double bonds.
Ball-and-stick representation of sucrose (C₁₂H₂₂O₁₁), highlighting its glycosidic linkage between α-glucose and β-fructose rings.
A simplified yet elegant depiction of an atom, showing a central nucleus surrounded by electron orbitals.
