Prompt: Academic journal cover with a technologically advanced, two-dimensional nanoribbon of atoms for electrocatalytic hydrogen precipitation placed on a square gold substrate, with atoms chemically bonded to each other
Prompt: Academic journal cover with a technological feel, with two-dimensional spherical atoms for electrocatalytic hydrogen precipitation arranged on a square gold substrate, with chemical bonds connecting the atoms.
Prompt: Academic journal cover, technological sense, atomic nanoribbons, electrocatalytic hydrogen precipitation, gold substrate
Prompt: Academic journal cover with a technologically advanced, two-dimensional nanoribbon of atoms for electrocatalytic hydrogen precipitation placed on a square gold substrate, with atoms chemically bonded to each other
Style: Tile Texture
Prompt: A journal cover used to represent scientific research. There is a layer of graphene formed by gray carbon atoms arranged repeatedly in regular hexagonal rings on the cover. 3% of the carbon atoms were randomly removed leaving defects. These defects are filled with bright blue ruthenium metal. On the surface of graphene, there are one octahedron, one decahedron, and one dodecahedron placed on it. Behind the graphene, a supercomputer can be vaguely seen standing there in the entire picture. Supercomputers are black servers. In order to show the use of brains to think, the head is outlined with lines at the top of the entire picture.
Style: Photographic
Prompt: Scientific journal cover, Atomic scale 2D PtSe2 nanoribbons, Minimalist thin design on top of a gold substrate, Industrial design inspired by Dieter Rams and BRAUN, Natural lighting, Retro product advertising aesthetic, Rendered using Unreal Engine, Ultra-realistic rendering, Pristine glass, Nostalgic colour palette, Compelling product shot highlighting the delicate details, 16K Ultra HD resolution.
Prompt: Academic journal cover, technological sense, atomic nanoribbons, electrocatalytic hydrogen precipitation, gold substrate
Style: Fantasy Art
Prompt: The graphene sheets extend from the back to the front of the picture. There are some atomic clusters on the graphene sheet. And some of the graphene's carbon atoms are removed, leaving defects. The background of the overall picture is a supercomputer and a high-speed computing center. There is a line drawing of a head-shaped plan at the top of the screen.
Style: Digital Art
Prompt: Science magazine cover style, neuron cells above, liver below, with sweet wormwood in the background
Prompt: Molecular reaction 3D schematic model; A small number of randomly discharged sheet-like six-membered rings; The Spaces between rings are filled with colloidal substances rather than molecular bonds
Prompt: ractalized harmonic resistance through a superconducting triboluminescence medium, Fibonacci sequence embedded eddy currents, scanning electron microscope images, inspired by biological micro structures, hyper detailed + octane render + 8k + UHD
Prompt: The graphene sheets extend from the back to the front of the picture. There are some atomic clusters on the graphene sheet. And some of the graphene's carbon atoms are removed, leaving defects. The background of the overall picture is a supercomputer and a high-speed computing center. There is a line drawing of a head-shaped plan at the top of the screen.
Style: Anime
Prompt: Generate an illustration showing a semiconductor material (such as titanium dioxide) represented as a lattice structure. Show incoming photons (particles of light) striking the surface of the semiconductor. Illustrate the absorption of a photon by an electron within the material, causing the electron to move to a higher energy level and become a 'free' electron. Additionally, depict the creation of a 'hole' (a positively charged vacancy) in the place where the electron previously existed within the lattice structure. Highlight the separation of the electron and the hole as distinct entities within the semiconductor material.
Prompt: breathtaking professional award-winning photograph of a scene called Atomic Dance of Bonding: Atoms swirl in a delicate dance, their outer electrons reaching out to each other, creating a bond. The scene is a flurry of activity as electrons move in synchrony, forming a molecule. The emerging chemical bond glows with energy, a new connection that is both strong and elegant.
Prompt: Molecular reaction 3D schematic model; Several cluttered discharges of long hexagonal prism molecules; The Spaces between them are filled with colloidal substances rather than molecular bonds
Prompt: An image for the cover of a mathematics book. I'd like to see tables and graphs in it. I want plenty of +1 and -1 displayed throughout the image
Prompt: 1. Tunneling nanoreactor 2. Engineered nanopipette technology 3. Cyt c encapsulated ZIF-8 nanoparticles
Prompt: Molecular reaction 3D schematic model; Several cluttered hexagonal prism molecules; The space between them is filled with a colloidal substance
Prompt: A visually stunning representation of the hyperfine structure of hydrogen, captured in a scientific laboratory setting. Focus on the intricate details of the atomic structure, showcasing electron transitions and energy levels. Utilize a high-powered microscope or macro lens for extreme close-ups. Opt for a dark background to emphasize the vibrant spectral lines. Experiment with soft, diffused lighting to highlight the delicate features without creating harsh shadows. Aim for a composition that balances scientific precision with artistic flair, evoking a sense of wonder and curiosity.
Prompt: A visually stunning representation of the hyperfine structure of hydrogen, captured in a scientific laboratory setting. Focus on the intricate details of the atomic structure, showcasing electron transitions and energy levels. Utilize a high-powered microscope or macro lens for extreme close-ups. Opt for a dark background to emphasize the vibrant spectral lines. Experiment with soft, diffused lighting to highlight the delicate features without creating harsh shadows. Aim for a composition that balances scientific precision with artistic flair, evoking a sense of wonder and curiosity.
Prompt: 1. Tunneling nanoreactor 2. Engineered nanopipette technology 3. Cyt c encapsulated ZIF-8 nanoparticles 4. Nanoconfined reaction tunnel 5. Single living cell 6. Subcellular H2O2 7. Ionic current signal 8. ZIF-8 triggered enhancement 9. Cyt c enzyme activity 10. H2O2 elimination 11. Molecular dynamics simulations 12. Stability of Cyt c 13. Activity of Cyt c 14. Encapsulation in ZIF-8
Prompt: a dynamic background, rich in modern colors, reflecting dynamics and energy. You can place a stylized microelectronic component or electrical circuit in the center of the image to highlight the theme of the book. Graphic elements such as swirls and lines can be associated with electric fields and flows. You can also add symbols of physical laws, such as Maxwell's equations or Ohm's formulas
Prompt: Design a visually compelling image that simulates a cross-section of polyisoprene resembling a small section of pipe. The focus should be on providing a detailed view of polyisoprene's molecular structure. Visualize the repeating isoprene monomer units arranged in a chain, highlighting the polymer's characteristic structure. Consider incorporating a color scheme that distinguishes individual monomer units and emphasizes the connectivity between them. Use shading and lighting effects to add depth, making the molecular structure appear three-dimensional within the pipe section. Additionally, you may want to include labels or annotations to educate viewers about the composition of polyisoprene and its significance in various applications. This prompt encourages a creative exploration of the molecular intricacies of polyisoprene within a visually appealing representation of a small pipe section, blending both scientific accuracy and aesthetic appeal.
Prompt: quantum computing breakthroughs, abstract quantum bits, futuristic circuitry, quantum algorithms, cutting-edge technology, 16K high resolution, ultra detailed and shapren quality image science illustration, by Quantum Vision Studios
Prompt: 1930s, Amelia Earhart and Fred Noonan, capturing the essence of these two figures from the golden age of aviation. The dream unfolds with cinematic allure, portraying their adventurous spirit and the shared journey they undertook together.
Style: Cinematic
Prompt: book cover, book spread, abstraction, colors of the French flag, edging in the middle
Negative: text, word, words
Prompt: a microscopic photo of crystal atomic structure, photorealistic, intricate detail, photographic, octane render
Prompt: Chips, transistors and resistors are arranged with sophistication, creating harmonious compositions that aesthetically reflect the technological structure. The luminous lines designed on graphic diagrams not only illuminate key elements of electrical engineering, but also transform the background into an energetic space, as if emphasizing the dynamic and active nature of the material being studied Simultaneously, stylized atomic images and abstract particles bring a scientific element to the design, acting as a visual leitmotif that evokes the deep physical underpinnings of the subject. Luminous, futuristic lines give the cover an innovative feel, as if offering a glimpse into the technological future. The color scheme, in which electric blue, digital gray and green are harmoniously intertwined, creates an impressive visual balance, embodying modernity and professional relevance. Gradients are cleverly used in combination with lighting effects , add depth and three-dimensionality, creating the feeling that the background is alive with its own electromagnetic energy. Ultimately, this design masterfully emphasizes the textbook's theme, providing not only visual satisfaction but also effective visual impact.
Prompt: Chips, transistors and resistors are arranged with sophistication, creating harmonious compositions that aesthetically reflect the technological structure. The luminous lines designed on graphic diagrams not only illuminate key elements of electrical engineering, but also transform the background into an energetic space, as if emphasizing the dynamic and active nature of the material being studied Simultaneously, stylized atomic images and abstract particles bring a scientific element to the design, acting as a visual leitmotif that evokes the deep physical underpinnings of the subject. Luminous, futuristic lines give the cover an innovative feel, as if offering a glimpse into the technological future. The color scheme, in which electric blue, digital gray and green are harmoniously intertwined, creates an impressive visual balance, embodying modernity and professional relevance. Gradients are cleverly used in combination with lighting effects , add depth and three-dimensionality, creating the feeling that the background is alive with its own electromagnetic energy. Ultimately, this design masterfully emphasizes the textbook's theme, providing not only visual satisfaction but also effective visual impact.
Prompt: An image for the cover of a mathematics book. I'd like to see tables, graphs and charts, in it. I want plenty of \\\"+1\\\" and \\\"-1\\\" displayed throughout the image
Prompt: Design a cover for a textbook on Hydraulic and Pneumatic Technology following these design principles: Background: Choose a modern and tech-inspired background color such as blue or gray. Add gradient effects or clean textures to enhance visual depth. Title: Use a bold and large font to display the main title, \"Hydraulics and Pneumatics\". Ensure the font is clear and easy to read, with a color that contrasts well with the background, such as white or a bright color. Subtitle: Place a concise subtitle below or next to the main title, emphasizing the content or unique aspects of the textbook, such as \"Principles and Applications\" or \"Key Technologies in Industrial Automation\". Image: Include a relevant image on the cover, such as hydraulic or pneumatic equipment, industrial machinery, or related symbolic icons. Ensure the image is high-quality, clear, and closely aligned with the theme of the textbook. Author and Institution Information: Add the name of the author or editor and the institution's logo at the bottom or side of the cover to provide credibility and authority. Additional Elements: Consider incorporating eye-catching quotes or endorsements to enhance the appeal and credibility of the textbook. You can also use minimalist graphic elements or symbols to add visual interest. ratio: A4 sheet.
Style: Fantasy Art
Prompt: a dynamic background, rich in modern colors that reflect dynamics and energy. You can place a stylized microelectronic component or electrical circuit in the center of the image to highlight the theme of the book. Graphic elements such as swirls and lines can be associated with electric fields and flows. You can also add symbols of physical laws, such as Maxwell's equations or Ohm's formulas
Prompt: breathtaking professional award-winning photograph of a scene called Enzyme-Substrate Interaction: An enzyme molecule, with its unique active site, binds to its substrate in a lock-and-key mechanism. The scene captures the moment of this biochemical union, the substrate fitting perfectly into the enzyme. This fleeting interaction, crucial for metabolic processes, is like a molecular handshake that initiates a cascade of reactions.
Prompt: schematic illustrates transition zone of functionally graded material, which is varying from a metal material to another ceramics material
