Deliverables

Magnetic Textile Project Gantt Chart (Jan–March 2025)

Project Timeline

Task	Jan 1-7	Jan 8-14	Jan 15-21	Jan 22-28	Jan 29-Feb 4	Feb 5-11	Feb 12-18	Feb 19-25	Feb 26-Mar 3	Mar 4-10	Mar 11-17	Mar 18-24	Mar 25-31
Phase 1: Research & Planning	███████	███████
Literature Review	███████	███████
Define Objectives & Applications	███████	███████
Material Selection	███████	███████
Phase 2: Experimental Design			████████	████████	████████
Develop Synthesis Plan			████████	████████
Safety & Feasibility Check			████████	████████
Procure Materials			████████	████████	████████
Phase 3: Fabrication & Coating					██████████	████████	████████	████████
Textile Pre-Treatment					██████████
In-Situ Synthesis Process					██████████	████████	████████
Preliminary Testing						████████	████████	████████
Phase 4: Characterization & Analysis							████████	████████	████████	████████
Structural & Morphological Analysis							████████	████████	████████	████████
Magnetic Property Testing								████████	████████	████████
Mechanical & Durability Tests								████████	████████	████████
Phase 5: Application & Testing									████████	████████	████████
Prototype Development									████████	████████
Functional Testing									████████	████████	████████
Phase 6: Documentation & Presentation											████████	████████	████████
Report Writing											████████	████████	████████
Presentation Preparation											████████	████████	████████

Phase 1: Research & Planning (Jan 1 - Jan 15)

1. Literature Review: Study previous research on in-situ synthesis of nanoparticles in textiles. Focus on:
   • Types of nanoparticles (e.g., iron oxide, cobalt, nickel)
   • Suitable textile substrates (cotton, polyester, nylon)
   • Surface functionalization methods
   • Characterization techniques (SEM, XRD, VSM for magnetism)
2. Define Objectives: What properties are you aiming for? Applications (e.g., EMI shielding, medical textiles)?
3. Select Materials: Choose textile substrates and nanoparticles based on research.

Phase 2: Experimental Design & Material Procurement (Jan 16 - Jan 31)

1. Develop a Synthesis Plan:
   • Choose in-situ synthesis method (chemical reduction, sol-gel, hydrothermal, plasma treatment).
   • Determine process parameters (temperature, pH, reaction time).
2. Safety & Feasibility Check:
   • Ensure laboratory safety measures for nanoparticle handling.
   • Identify possible challenges (particle agglomeration, uneven coating).
3. Purchase Materials:
   • Textiles
   • Precursors for nanoparticles (metal salts, reducing agents, stabilizers)
   • Characterization tools (if needed)

Phase 3: Fabrication & Coating Process (Feb 1 - Feb 15)

1. Pre-Treatment of Textiles:
   • Surface modification (plasma treatment, acid/base treatment)
   • Washing/drying procedures
2. Synthesis & Deposition:
   • Implement selected in-situ method.
   • Optimize reaction conditions for uniform nanoparticle distribution.
3. Preliminary Testing:
   • Check for adhesion, particle size, and uniformity.

Phase 4: Characterization & Analysis (Feb 16 - Mar 10)

1. Material Characterization:
   • SEM/TEM: Morphology & nanoparticle distribution
   • XRD: Crystallinity confirmation
   • FTIR: Surface functional groups
   • VSM (Vibrating Sample Magnetometry): Magnetic properties evaluation
2. Durability Tests: Washing resistance, mechanical stability
3. Optimize Process Parameters:
   • Adjust nanoparticle concentration, synthesis conditions for improved performance.

Phase 5: Application & Testing (Mar 11 - Mar 20)

1. Prototype Development:
   • Convert magnetic textiles into a prototype (e.g., wearable sensor, shielding fabric).
2. Functional Testing:
   • Magnetic responsiveness
   • Conductivity (if applicable)
   • Wearability and flexibility tests

Phase 6: Documentation & Presentation (Mar 21 - Mar 31)

1. Compile Findings:
   • Summarize experimental data, challenges, and solutions.

2. Prepare Report & Presentation:

   • Final report for academic/industrial submission.
   • Presentation for defense or conference.

3. Monday

4. Excel
5. Trello

BoM bill of materials

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Materials

Qty	Description	Price	Link	Notes
1	Material one	22.00 $	http://amazon.com/test	order soon
2	Material two	22.00 $	http://amazon.com/test
1	Material three	22.00 $	http://amazon.com/test	packs of 3
1	Material five	22.00 $	http://amazon.com/test	timing
5	Material eight	22.00 $	http://amazon.com/test
10	Material twelve	22.00 $	http://amazon.com/test
10	Material eleven	22.00 $	http://amazon.com/test

Useful links

• electronics
• biomaterial inventory
• fibers & farm

Story telling script

The Magic Cloth That Follows a Magnet

Once upon a time, in a little workshop filled with colorful fabrics, a young scientist had a big dream.

"What if clothes could be more than just something we wear? What if they could have magical powers—like following a magnet, protecting us from harmful waves, or even helping doctors heal people?"

Grandma listened carefully, her knitting needles clicking as she smiled.
"Magical clothes, you say? Tell me more!"

The Magic Powder

The young scientist explained,
"You know how a magnet sticks to the fridge? That happens because of tiny invisible metal particles inside it. What if we could sprinkle that magic powder onto cloth, so it becomes a little bit magnetic too?"

"But won’t the powder fall off when we wash it?" Grandma asked.

"Good question!" the scientist said.
"Instead of just sprinkling it, we can grow the tiny metal particles inside the fabric itself—like little seeds growing into a plant. That way, they stay forever!"

A Cloth That Can Do Amazing Things

Grandma’s eyes widened.
"So what happens when the fabric becomes magnetic?"

"Well, imagine wearing gloves that can help you pick up tiny metal objects without touching them! Or a jacket that blocks bad waves from cellphones and Wi-Fi to protect our health. Doctors could even use these fabrics to help people heal by warming up certain body parts with special magnets!"

From Dream to Reality

The young scientist worked day and night, carefully choosing the right fabric, special liquids, and metal particles. With the perfect recipe, they finally made a piece of magical cloth.
It was soft like a regular fabric but had hidden superpowers inside.

Grandma touched the fabric and smiled.
"It looks like a normal cloth, but it’s full of science and wonder. You, my dear, are making the future!"

And so, the young scientist continued to create the magic cloth, making the world a little smarter, a little safer, and a lot more exciting.

The End. 🎩✨