Humanoid robots have advanced at incredible speed in 2025, driven by breakthroughs in AI, materials science, and cheaper actuators. Below is the most up-to-date list of the top 10 humanoid robots as of November 2025, including pros, cons, and pricing where available.

1. XPeng IRON

Price: ~USD 150,000
Pros:

Extremely realistic appearance with flexible artificial skin and 82 degrees of freedom.
Equipped with three custom AI chips and a solid-state battery for high performance.
Smooth human-like locomotion including walking, posing, and expressive movements.
Cons:
Not yet widely available to consumers; early deployments focus on enterprise environments.
High production cost limits accessibility.

2. Tesla Optimus (Next-Gen)

Estimated Price: USD 25,000–30,000
Pros:

Built on Tesla’s AI vision system, enabling autonomous task execution.
Designed for mass production and household use in the long run.
Lightweight, energy-efficient mechanical structure.
Cons:
Commercial rollout timeline remains unclear.
Some announced features are still experimental.

3. Unitree R1

Price: USD ~5,900
Pros:

By far the most affordable humanoid robot in 2025.
Lightweight (≈25 kg) with 26 joints, capable of flips, martial-arts-like motions, and fast movement.
Supports multimodal LLMs (vision + speech) for natural interaction.
Cons:
Limited payload capacity; not suitable for heavy industrial work.
More of a developer/enthusiast robot than an enterprise-ready system.

4. Sanctuary AI Phoenix

Price: Not publicly available
Pros:

One of the most advanced general-purpose humanoid robots with high-level reasoning.
Highly dexterous hands capable of fine manipulation tasks.
Designed to perform real workforce tasks in commercial environments.
Cons:
Very high development cost.
Not yet mass-produced; still in early commercial trials.

5. Apptronik Apollo

Price: Not disclosed (enterprise-focused)
Pros:

Strong mechanical build designed for factories, logistics, and warehouse work.
Safe human–robot collaboration through force-sensitive joints.
Built for repetitive lifting, sorting, and industrial tasks.
Cons:
Large size and industrial nature limit everyday consumer use.
Expensive to maintain and deploy.

6. Ameca

Price: Not officially published
Pros:

The most expressive humanoid robot face on the market.
Ideal for customer service, exhibitions, and human–AI interaction research.
Realistic facial muscles, high-quality sensors for communication.
Cons:
Limited locomotion; not designed for physical labor.
More suitable for demonstration and social interaction than real-world tasks.

7. AGILOped

Price: No commercial price (open-source research platform)
Pros:

Very lightweight (~14.5 kg) and compact, ideal for labs and educational projects.
Open-source design allows deep customization in both software and hardware.
Capable of running, jumping, and standing up after falls.
Cons:
Not built for industrial or household work.
Hardware not as durable as commercial systems.

8. THOR (Research Model)

Price: Not commercially sold
Pros:

Designed for full-body reactive control, making it safer during physical interactions.
Uses reinforcement learning for adaptive movement in unpredictable environments.
Potential applications in rescue operations and hazardous environments.
Cons:
Still a research-focused platform.
High complexity and high development cost.

9. Kid Cosmo

Price: Not available for public sale
Pros:

Child-sized humanoid robot designed for advanced locomotion research and performance.
High-torque actuators and smooth, human-like movement.
Great for entertainment, academic labs, and motion research.
Cons:
Not intended for lifting or heavy tasks.
Limited real-world functionality outside demonstrations.

10. iRonCub 3

Price: Research-only robot
Pros:

Experimental humanoid capable of controlled flight using jet propulsion.
Innovative architecture for future aerial humanoid systems.
Represents the next frontier of humanoid mobility.
Cons:
High risk and extremely expensive to test.
Completely unsuitable for commercial deployment for now.

Conclusion

Humanoid robotics in 2025 is divided into three clear tiers:

1. High-end enterprise humanoids

XPeng IRON, Tesla Optimus, Apollo, Phoenix — designed for real-world jobs.

2. Affordable developer robots

Unitree R1, AGILOped — low price, high agility, perfect for students and startups.

3. Research & experimental robots

THOR, Kid Cosmo, iRonCub 3 — pushing the boundaries of mobility, safety, and even flight.

The future is accelerating fast. By late 2026–2027, humanoids may become mainstream consumer products — and the race officially begins.

Top 10 Humanoid Robots – November 2025 (With Pros, Cons & Price)