Adjectives For Molecules
Discover the most popular adjectives for describing molecules, complete with example sentences to guide your usage.
Updated on March 16, 2024
When describing molecules, the choice of adjectives can unveil a world of nuances and depth. The term small molecules hints at simplicity and perhaps ease of manipulation in scientific experiments, contrasted by large molecules which suggest greater complexity and potential challenges. The adjective organic immediately brings to mind life's building blocks, while complex molecules conjure images of intricate structures with unique functions. Delving into the realm of individual molecules, we touch on specificity and unique characteristics, whereas solvent molecules highlight interaction and functionality. Each term opens a door to further exploration. Discover the full spectrum of adjectives associated with molecules and their rich contextual layers below.
| small | Small molecules can be used in a variety of applications. |
| organic | Organic molecules are the building blocks of life. |
| large | The large molecules in the cell are made up of many atoms. |
| complex | The complex molecules found in DNA are responsible for carrying genetic information. |
| individual | The individual molecules of water are constantly moving and colliding with each other. |
| solvent | The solvent molecules were able to dissolve the solute completely. |
| diatomic | Diatomic molecules are composed of two atoms. |
| larger | Larger molecules have a lower probability of diffusion across a membrane. |
| smaller | The smaller molecules were able to pass through the membrane more easily. |
| polar | Polar molecules have a positive end and a negative end. |
| simple | Simple molecules like carbon dioxide and water are essential for life. |
| single | Single molecules can be detected with fluorescent biosensors. |
| neutral | The neutral molecules in the gas do not react with each other. |
| specific | The specific molecules in this compound are responsible for its unique properties. |
| biological | Biological molecules are essential for all living organisms. |
| polyatomic | The polyatomic molecules consist of two or more atoms of different elements. |
| active | The active molecules in the solution were interacting with each other. |
| adsorbed | The adsorbed molecules created a monolayer on the surface, significantly altering its properties. |
| linear | Linear molecules have a straight or nearly straight structure. |
| like | The two molecules in the beaker repel each other like molecules of the same element. |
| excited | The excited molecules vibrated rapidly, releasing energy as they moved. |
| dye | The dye molecules were injected into the solution. |
| soluble | The soluble molecules dissolved easily in the water. |
| adjacent | The adjacent molecules in a crystal are held together by strong forces. |
| gaseous | The gaseous molecules in the atmosphere absorb heat from the sun. |
| circular | The research team produced several circular molecules |
| bound | The bound molecules are held together by strong forces. |
| liquid | The liquid molecules rearranged themselves. |
| chain | Polymer molecules, also known as chain molecules are made up of a repeated series of small molecular units. |
| acid | The acid molecules burned a hole through the fabric. |
| stranded | The stranded molecules were unable to form a stable compound. |
| identical | The identical molecules were arranged in a precise pattern. |
| substrate | The enzyme bound to the substrate molecules and catalyzed the reaction. |
| nonpolar | These nonpolar molecules are capable of van der Waals forces. |
| regulatory | Regulatory molecules which are proteins, are produced by cells and have a wide range of functions. |
| surfactant | Surfactant molecules can reduce the surface tension of liquids. |
| undissociated | Researchers confirmed the presence of undissociated molecules in the mixture. |
| stable | The stable molecules in the solution were able to resist the harsh conditions. |
| extracellular | Extracellular molecules are secreted into the space outside the cell. |
| giant | |
| containing | The samples are preserved in a buffer containing molecules similar to those found in cells. |
| related | The two related molecules have similar chemical structures. |
| costimulatory | Costimulatory molecules are expressed on the surface of antigen-presenting cells and provide a second signal that is required for the activation of T cells. |
| spherical | The spherical molecules rolled smoothly across the surface. |
| simpler | Scientists believe that simpler molecules were able to form a much wider range of structures than is possible with the more complex molecules of today. |
| aromatic | The fragrant, aromatic molecules wafting through the air are a reminder of the abundance of nature. |
| neighboring | The neighboring molecules interacted strongly with each other. |
| nucleic | Nucleic molecules include DNA and RNA, which store and transmit genetic information. |
| fat | The fat molecules in the blood contribute to heart disease. |
| rigid | The rigid molecules resisted the force of the collision. |
| fluorescent | The fluorescent molecules emitted a brilliant glow under ultraviolet light. |
| reactive | These reactive molecules have the potential to alter the properties of materials. |
| fewer | Fewer molecules of gas were released in the second explosion. |
| complicated | These complicated molecules are the building blocks of life. |
| polymer | The polymer molecules in the solution were entangled with each other. |
| chiral | Chiral molecules exist in two forms that are mirror images of each other. |
| hydrophobic | Hydrophobic molecules tend to be nonpolar and insoluble in water. |
| hybrid | The hybrid molecules were created by combining two different types of molecules. |
| isolated | Isolated molecules often have unpaired electrons. |
| intact |
| uncharged | Uncharged molecules can pass through the plasma membrane by diffusion. |
| homonuclear | Homonuclear molecules are composed of atoms of the same element. |
| flexible | The flexible molecules can adapt to different environments. |
| neighbouring | The neighbouring molecules are weakly attracted to each other. |
| hydrophilic | Hydrophilic molecules are water-loving molecules that attract water molecules. |
| intracellular | The drug is taken up by cells and affects intracellular molecules |
| endothelial | Endothelial molecules can play a crucial role in the regulation of vascular tone. |
| signal | Regulators of cell signaling pathways are called signal molecules |
| associated | The associated molecules are responsible for the unique properties of water. |
| activated | The activated molecules were then used to create the new material. |
| molecular | The molecular molecules interact with each other to form new substances. |
| stimulatory | The researchers found that stimulatory molecules were released by the cells. |
| conjugated | The conjugated molecules absorbed energy in the visible spectrum. |
| heavier | The heavier molecules in the mixture sank to the bottom. |
| cellular | Cellular molecules contribute to the overall function and structure of living organisms. |
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