POWERED BY JIAGENG INNOVATION LABORATORY (IKKEM) XIHE

Returning technology
to the rhythm of life.

Engineering precision wellness through advanced 9.4μm graphene far-infrared technology.

9.4μm Peak Resonance
0.98 Graphene Emissivity
Lab Verified
Explore Partnership Discover the Science → See How It Works ↓
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At a Glance

Foundational Truths
Water ripple — nature's fundamental frequency

Homo-Resonance · Water–Graphene Interface

Nature speaks in frequencies;
XIHE resonates with life.

A gentle, biophysical alignment that supports the body's natural balance.

Discover Graphene Resonance →
5-15μm wavelength spectrum visualization
9.4μm PEAK
5μm
15μm
Visible
Life Spectrum
Thermal

5–15μm · Peak 9.4μm

Precision where the body
absorbs far-infrared.

Targeted resonance for microcirculation, tissue oxygenation, and cellular support.

See Applications →
Cellular energy — mitochondrial resonance visualization

Mitochondrial Resonance · ATP Synthesis

Supporting life
at the cellular level.

Engineered 9.4μm resonance facilitates ATP synthesis and natural recovery processes.

View Mechanism →
XIHE — Engineering for Life
About XIHE

Engineering for Life.
Precision for Human Wellness.

XIHE is majority-owned (55%) by Jiageng Innovation Laboratory (IKKEM), led by Academician Zheng Nanfeng — a research-first corporate structure reflecting our origins within a scientific ecosystem. As the Lead Drafting Unit for the National Industry Standard for Graphene Flexible Electrothermal Film, our mission is to translate frontier science into scalable wellness technology.

Basic Research

IKKEM · Academician Zheng

Standardization

National Industry Standard

Applied Research

Verified B2B Solutions

The IKKEM Alliance → Explore Biophysical Protocols →
EVIDENCE MATRIX

Precision Resonance. Research-Backed Results.

XIHE's 9.4μm graphene far-infrared platform bridges cutting-edge engineering with measurable biological response. Research suggests the body responds measurably to stable, precise far-infrared resonance. Below are findings from published studies and laboratory investigations.

78.3%

Comfort & Mobility

Clinical research suggests deep-tissue resonance may support comfort, mobility, and functional recovery.

WHITEPAPER →

63%

Cellular Energy

Research suggests support for cellular energy through mitochondrial interaction and ATP regulation.

METABOLIC STUDY →

27%

Relaxation & Rest

Studies indicate support for cerebral microcirculation and promotion of relaxation states.

NEURO REPORT →

67%

Metabolic Recovery

Research suggests support for metabolic recovery and endurance through improved cellular efficiency.

PERFORMANCE DATA →
Energy
Pathway
Energy Pathway: 9.4μm photon → Mitochondrial photoacceptor → ATP upregulation → Systemic cellular support
How It Works

Heat is everywhere.
Resonance is precise.

Most far-infrared products generate warmth. XIHE generates resonance — energy tuned to the exact frequency your cells already understand.

01

A Drop, or a Glass?

Single Layer
XIHE Multi-Layer

The Cup Theory. Single-layer is a shallow plate — photons pass through unused. XIHE's multilayer lattice captures, concentrates, and directs energy deep into tissue.

The difference between "graphene" and XIHE graphene is not marketing. It's physics. Competitors use single-layer films so thin that infrared photons pass straight through — like light through a window. Same material. Different physics.

Explore the Science →
02

Wood Piled High. Who Lights the Match?

Supplements
+
9.4μm
=
ATP
Energy

Patients spend thousands on NMN, NAD+, CoQ10 — the finest metabolic fuel. But fuel without ignition is just inventory. XIHE's 9.4μm resonance is the spark that activates mitochondrial machinery, turning frozen assets into real cellular energy.

Mitochondrial Mechanism →
03

Static, or Symphony?

Typical FIR Device

Scattered · No clear peak

VS

XIHE 9.4μm

Precision-locked · 9.4μm peak

Every heating pad emits infrared. Most scatter energy across an unfocused spectrum — like a radio stuck between stations. XIHE locks onto 9.4μm, the wavelength where cellular water resonates. The difference between noise and a clear note. Your body doesn't need more volume — it needs the right frequency.

Research Evidence →
Products

From Core Material
to Complete Systems.

Every XIHE product is built on the same precision-engineered graphene film. Choose the form factor your organization needs — from portable wearables to full-body systems.

XIHE CAPSULE — 6-in-1 graphene photon energy capsule for full-body cellular restoration
Full-Body Solution
XIHE CAPSULE
Full-body 9.4μm far-infrared cabin designed to support deep relaxation, cellular vitality, and overall wellness in professional environments.
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 XIHE Neural Resilience — graphene neural helmet and eye mask for cognitive support
Portable Solution
Neural Resilience
Graphene neural helmet and eye mask. Research suggests support for sleep quality and relaxation through α-wave entrainment.
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 XIHE Graphene Film — precision-engineered graphene heating module with ≥0.88 emissivity
Core Material
Graphene Film
Core graphene heating module with ≥0.88 certified emissivity — the engine inside every XIHE product. Available for OEM integration.
Explore →
 XIHE CABIN — modular far-infrared photon resonance chamber for clinics and wellness centers
Modular Solution
XIHE CABIN
Modular graphene far-infrared cabin — configurable form factors for multi-room wellness center and spa deployments.
Explore →
 XIHE Visceral Vitality — graphene far-infrared waist pad for visceral organ health and metabolic support
Portable Solution
Visceral Vitality
Targeted 9.4μm resonance designed to support core body comfort and overall wellness in a portable wearable.
Explore →
 XIHE Deep Recovery — graphene far-infrared wearable system for spine and joint recovery
Portable Solution
Deep Recovery
Post-exercise recovery wearable. Research suggests support for faster recovery and muscle comfort through accelerated lactate clearance.
Explore →
Browse Full Product Line →
Scientific Foundation

Laboratory-Grade Precision.
Lab-Validated Wellness Outcomes.

0.98
Emissivity
Approaching the physical limit of an absolute blackbody within the 8-14μm vital spectrum.
18
SCI Papers
Peer-reviewed research publications supporting the technology's lab-validated performance.
78.3%
Research Finding
Published clinical research with Peking University Third Hospital demonstrated significant measurement outcomes.
Trust & Validation

Backed by Science.
Validated by Institutions.

Peer-reviewed lab validation. Active deployment in leading institutions.

🏥

Peking University
Third Hospital

Research Validation Partner

🏥

Xiamen University
Affiliated Hospital

Research Partner

🏥

Zhongshan Hospital
Xiamen

Institutional Deployment

🔬

IKKEM Laboratory

R&D & Incubation

📋

National Industry
Standard

Lead Drafter

40+

Core Patents

18

SCI Papers

8

RCT Studies

5

Hospital Partners

For B2B Buyers

Evaluate XIHE
for Your Organization.

Technical specs, research evidence, and partnership terms — everything for your procurement review.

Explore B2B Partnership → Request Technical Specs →

Direct line: +86 186 8868 3865  |  Email: Joyce@xgraphene.tech

Frequently Asked

About Graphene Far-Infrared Technology

What is graphene far infrared and how does it work?

Graphene far infrared refers to the use of graphene — a single layer of carbon atoms — to generate and emit far-infrared radiation (FIR) when an electrical current is applied. XIHE's graphene elements efficiently convert energy into radiant heat waves within the 5–15μm wavelength range, peaking at 9.4μm — the same wavelength the human body naturally radiates. This allows the energy to be readily absorbed by the skin and penetrate deeply into tissue through radiative transfer rather than surface heating alone.

Learn more: How Graphene Infrared Works →

What makes XIHE graphene different from standard heating films?

XIHE's Integrated Matrix Engineering achieves spectral emissivity ≥0.88 (peak 0.95), enabling more energy to be emitted as useful far-infrared radiation rather than retained within the material itself. Standard films typically operate at lower emissivity (0.75–0.85), behaving like an instrument with a poor soundboard — energy is generated, but much of it never reaches the intended destination.

Learn more: Integrated Matrix Engineering →

What is 9.4μm far-infrared and why does it matter?

9.4μm lies within a far-infrared region that has been widely studied for its interaction with water-rich biological tissues. Research suggests that wavelengths within this range may support efficient energy transfer at the tissue level and contribute to measurable physiological responses. XIHE materials are engineered to maximize emission efficiency within this spectral window.

Learn more: Cellular Mechanism →

How is graphene far-infrared technology supported by research?

XIHE's platform is supported by 18 SCI-indexed publications, 8 randomized controlled trials, and research collaborations with institutions including Peking University Third Hospital. Studies have observed measurable outcomes in comfort, microcirculation, and metabolic function — supported by 40+ core patents and national industry standard certification.

Learn more: Research Evidence →
Knowledge Hub

10 Interconnected
Science Centers

Evidence-based answers across cellular energy, mitochondrial health, fatigue, recovery, sleep, and more. Every article backed by published research with DOIs and evidence levels.

ATP & Energy Mitochondria Fatigue Recovery Sleep Inflammation Microcirculation Metabolism
Explore the Knowledge Hub →
Journal

Where Wisdom
Meets Resonance

Reflections on frequency, nature, and the body-mind connection — alongside the latest from XIHE's laboratories and partnerships.

Explore the Journal →

Ready to Restore
Cellular Resonance?

We are building a global community of clinics, researchers, and practitioners who believe technology should serve life. You belong here.

Join us in redefining the future of wellness.
Our Origin → Our Mission → Our Philosophy → Our Products →