3L3CTR0N-vista LoRA
Specialized LoRA for generating stunning electron microscopy-inspired visualizations of microscopic worlds and cellular landscapes.
Repository Structure π
βββ 3l3ctr0n-style-v0c.safetensors
βββ captions/
β βββ [training caption text files]
βββ ENH/
β βββ [prompt enhancer system prompts]
β βββ [user alteration templates]
βββ images/
β βββ [sample images from ollama workflows]
βββ workflows/
βββ [ComfyUI workflow files]
LoRA Model π¬
3L3CTR0N-vista is a specialized LoRA trained to generate breathtaking visualizations inspired by electron microscopy and cellular biology. This model excels at creating intricate, scientifically-inspired imagery that transforms the invisible microscopic world into stunning artistic compositions.
Key Specializations:
- Microscopic Landscapes: Complex cellular environments and biological surfaces
- Organism Structures: Detailed viruses, bacteria, spores, and microorganisms
- Scientific Aesthetics: Electron microscopy-style rendering with artistic enhancement
- Textural Complexity: Intricate surface details, protrusions, and filamentous structures
- Color Harmony: Sophisticated palettes blending cool blues/grays with warm oranges
This LoRA bridges the gap between scientific visualization and digital art, creating otherworldly scenes that feel both alien and familiar. Perfect for generating content that explores the hidden beauty of microscopic life.
Additional Resources π
/captions π
Contains comprehensive training captions showcasing the model's understanding of microscopic terminology, structural descriptions, and scientific aesthetics. These captions demonstrate the model's ability to interpret complex biological forms and textures.
/ENH π
Advanced prompt enhancement templates and system prompts designed to maximize the model's potential for generating scientifically-inspired imagery with proper terminology and compositional elements.
/images πΌοΈ
Sample outputs demonstrating the model's range across different microscopic subjects, color schemes, and compositional styles - from single-cell studies to complex multi-organism environments.
/workflows βοΈ
ComfyUI workflow files optimized for microscopic visualization generation, including specialized settings for texture enhancement and scientific color grading.
Technical Specifications π§
| Parameter | Value |
|---|---|
| Training Model | WAN 14B 2.1 |
| Inference Model | WAN 14B 2.2 (A14B) low noise |
| LoRA Rank | Optimized for detailed texture generation |
| Training Images | Curated microscopic imagery dataset |
| Trigger Term | 3l3ctr0n style |
| Recommended Strength | 0.7-1.0 for authentic electron microscopy aesthetic |
Getting Started π
Basic Usage:
3l3ctr0n style, [your microscopic subject], detailed cellular structure, intricate textures, scientific visualization
Advanced Prompting:
In this 3l3ctr0n style image, a detailed representation of [organism/structure], showcasing complex [specific features], against a [background description], with [color scheme], highlighting [specific details]
Recommended Negative Prompts:
blurry, low quality, simplified, cartoonish, flat textures, oversaturated
Best Practices π‘
π― Optimal Results
- Use scientific terminology for more authentic microscopic imagery
- Combine organism types for complex multi-species environments
- Specify texture details like "spiky protrusions," "hair-like filaments," "spherical clusters"
- Include depth cues such as "blurred background," "shallow focus," "foreground detail"
π¨ Style Enhancement
- Color specification: Mention "muted earth tones," "cool blues and grays," "vibrant orange accents"
- Structural elements: Reference "elongated appendages," "central hub," "radiating arms"
- Environmental context: Include "textured surface," "undulating landscape," "microscopic environment"
β‘ Performance Tips
- Higher LoRA strength (0.8-1.0) for more pronounced electron microscopy aesthetic
- Combine with scientific terminology for enhanced authenticity
- Use longer, descriptive prompts for complex multi-organism scenes
Style Characteristics π
Visual Identity
The 3L3CTR0N-vista aesthetic is characterized by its stunning fusion of scientific precision and artistic vision. Images feature incredibly detailed microscopic subjects rendered with electron microscopy-inspired clarity, showcasing the hidden architecture of cellular life.
Signature Elements
- Intricate Textures: Complex surface details with hair-like projections, spiky protrusions, and filamentous networks
- Organic Geometry: Spherical forms, elongated appendages, and branching structures that create natural mathematical beauty
- Scientific Color Palette: Sophisticated use of muted earth tones, cool blues, and contrasting warm oranges
- Depth and Focus: Strategic use of shallow depth of field to highlight central subjects against softly blurred backgrounds
Atmospheric Qualities
- Otherworldly Beauty: Transforms microscopic subjects into alien-like landscapes
- Scientific Wonder: Captures the awe-inspiring complexity of cellular life
- Dynamic Interaction: Shows organisms in motion, connection, and environmental relationship
- Textural Richness: Every surface tells a story through intricate detail and purposeful imperfection
Compositional Strengths
- Multi-scale Integration: Seamlessly blends individual organisms with environmental context
- Color Harmony: Expertly balances cool and warm tones for visual impact
- Scientific Accuracy: Maintains biological plausibility while enhancing artistic appeal
- Dimensional Depth: Creates convincing three-dimensional spaces in microscopic environments
Transform the invisible world into visible wonder with 3L3CTR0N-vista - where science meets art in the most intimate spaces of life itself. π¬β¨
Model tree for mushroomfleet/3l3ctr0n-style
Base model
Wan-AI/Wan2.2-T2V-A14B