Exenpack — Cs-s Steam Nano

| Feature | Specification | | :--- | :--- | | Processor | Dual-core RISC-V (400 MHz) with FPU | | Nano-fabrication resolution | 50 nm line width (dip-pen mode) / 200 nm (electrospinning) | | Sensing suite | MEMS-based AFM probe, temperature (0.01°C res.), humidity (0.5% res.) | | Software | Open-source SDK (C++, Python, Blockly), MATLAB/LabVIEW drivers | | Expansion ports | 4x M.2 (PCIe 3.0), 8x analog/digital configurable pins | | Power | 12V / 5A via USB-C PD or external Li-Ion pack (EXENPACK battery base) |

| Mode | STEAM Focus | Output | |------|-------------|--------| | Science | Material deformation & phase transitions | Real-time stress-strain curves on LCD | | Technology | Circuit integration & signal processing | Self-assembling conductive pathways | | Engineering | Load-bearing microstructures | Expandable scaffolding (e.g., for soft robotics) | | Arts | Chromatic nano-patterns | Temperature-sensitive color gradients | | Mathematics | Fractal growth modeling | Algorithm-driven expansion ratios | CS-S STEAM NANO EXENPACK

Graduate students in materials science can use the EXENPACK to rapidly prototype nano-sensor arrays without accessing a full cleanroom. Paired with the CS-S hub’s Python API, data from nano-scale strain gauges can be streamed directly into Jupyter notebooks for machine learning analysis. | Feature | Specification | | :--- |

Product Code: CS-S / STEAM-NX / v.4.2 Classification: Modular Nanoscale Expansion & Energy Delivery System It closes the gap between theoretical nanoscience and

The CS-S STEAM NANO EXENPACK is not a toy. It closes the gap between theoretical nanoscience and hands-on engineering.

The specific title "CS-S STEAM NANO EXENPACK" tells us exactly what the goal of the mod was:

This is the centerpiece. A portable electrospinning or dip-pen nanolithography unit that fits on a lab bench. Using pre-filled ink cartridges (graphene oxide, silver nanowires, or conductive polymers), students can: