For example, traditional electrolytic water cups, limited by cost and technological bottlenecks, usually have problems such as low hydrogen production efficiency, high hydrogen production voltage, short battery life, and the generation of harmful substances like ozone and chlorine, which lead to potential safety hazards during long-term use. The pure water electrolyzer with a proprietary nano-platinum coating of CAHMTF effectively solves the problems of low hydrogen production efficiency, high hydrogen production voltage, and potential safety hazards caused by the generation of harmful substances such as ozone and chlorine.

 

Product Parameters

 

Product Name	Hydrogen Water Generator Bottles	Model	NNHW210-xx-xx
Battery Capacity	1800mAh/3.7V	Hydrogen Output	2500ppb/5Mins 5000ppb/10Mins
Full Electrolysis times	About 5 Minutes *25~27 times	Charging time	About 3 hours
Hydrogen Generator technology	SPE hydrogen and oxygen separation membrane electrode	Product Size	61*61*200mm
Full Capacity	200ml	Water Temperature	Recomended 1~60ºC
Main Material	Food grade PC +Aluminium alloy	Water quality requirement	Purified Water/Mineral Water
Net Weight	0.42Kg	Charging Connector	USB&Magnetic charging cable

 

 

Our Advantages

 

First, What is MEA ?

1. Analysis of the MEA Components

- The membrane - electrode assembly (MEA) is indeed a crucial part of many electrochemical devices such as fuel cells and electrolyzers. As mentioned, it consists of a proton - exchange membrane, a platinum - catalyst coating, and a gas - diffusion layer.

- The proton - exchange membrane allows the transport of protons (H+) while separating the anode and cathode compartments. The platinum - catalyst coating facilitates the electrochemical reactions (e.g., in a fuel cell, the oxidation of hydrogen at the anode and the reduction of oxygen at the cathode). The gas - diffusion layer helps in the diffusion of reactant gases (like hydrogen and oxygen) to the catalyst layer and also in the conduction of electrons.

2. Safety and Reliability of Hydrogen - generating Cups

- For hydrogen - generating cups, the quality of the membrane - electrode technology is of great importance. Good membrane - electrode technology is essential for safety and reliability.

- If the voltage increases during long - term use, it may indicate problems such as electrode degradation or membrane damage. Unstable voltage can lead to inefficient operation and potential safety hazards.

- Regarding the total dissolved solids (TDS) in water, a significant increase after electrolysis may suggest that other substances are being released into the water due to electrode corrosion or membrane leakage. This can affect the quality of the generated hydrogen and the safety of the device.

- The concentration of hydrogen generated by electrolysis is also a key factor. A significant decrease in hydrogen concentration over time implies that the efficiency of the electrolysis process is deteriorating, which may be due to problems with the membrane - electrode assembly, such as catalyst deactivation or membrane fouling.

3. Overall Significance

- These requirements for good membrane - electrode technology are crucial for the proper functioning of hydrogen - generating bottles.

How is the performance of CAHMTF MEA ?

Always keep in mind that only good membrane - electrode technology of hydrogen - rich water cups can achieve low - voltage hydrogen production.

And voltage is the key factor related to the water quality safety after electrolyzing water.

Once the voltage is higher than 2.5V, even if hydrogen and oxygen are separated, there will be an increased risk of ozone, residual chlorine, heavy metals and other substances entering the water.

In addition, for some cups, the voltage is below the safe voltage of 2.5V when they are first used. With the increase in the number of hydrogen production times, reasons such as the shedding of the catalytic coating of the membrane - electrode will cause the voltage to gradually increase, and then some by - products of electrolyzed water will be generated, such as ozone, residual chlorine, heavy metals, etc.

 

You can use following methods to conduct the testing.
 

1. TDS test pen test. You can try to use a TDS pen to test after using the water cup for 1 year. If the TDS increases significantly before and after electrolysis, obviously this water cup is not good. It is very likely that the catalyst of the membrane - electrode has fallen off, resulting in the significant increase in TDS.
    
2. Residual chlorine test paper test. Observe the color change of the test paper to determine whether there is residual chlorine.
    
3. You can use the same titration solution for comparative tests to observe the change in hydrogen concentration at the beginning of use and after 1 or 2 years of use.If the hydrogen concentration will decrease significantly ,it is highly likely that it is not a membrane electrode technology at all.

 

The water cups of CAHMTF use membrane - electrodes independently developed and produced by CAHMTF itself . The MEA have been applied in a 100 - kilowatt electric thruster. They have good long - term stability.

On the basis of strictly using pure water for hydrogen production, with 10 times of hydrogen production per day and 5 minutes each time, there is no increase in TDS after 3 consecutive years of use.This can be easily tested by consumers themselves.

As an ordinary consumer, how can I tell whether there are harmful molecules like ozone in the water of the water cup I purchased?

If a cup can continuously produce hydrogen for 1 hour or 20 hours with the lid open and there is no foul smell in the water, it is of good quality.No ozone.

If after three years of use, the TDS (Total Dissolved Solids) does not increase after electrolysis compared with before in a cup, it is good, no heavy metals.
 

Installation Instructions

Detailed Photos

The following are real-shot pictures taken by a high-definition camera, without any modifications. They are 100% original pictures.

 

How does CAHMTF ensure that the voltage is safe?
 

The cup lid and cup body are not easily damaged. If the base fails to produce hydrogen or has a malfunction, please contact us as soon as possible. We will provide you with proper analysis and handling. Our warranty period is two years.We will conduct a remote assistance analysis. If we cannot resolve the bug, we may send you a new base.

• It's crucial to use the appropriate water. As mentioned before, only purified water such as supermarket - sold pure or mineral water, or tap water treated by a water purifier (direct - drinking water is acceptable) should be used. Avoid using soda water, tea water, tap water directly, or beverages because they contain particles that can cause malfunctions.

• Remember that the purpose is to quickly gather a large amount of hydrogen in the cup in a short time. Over - production may lead to excessive pressure.Suggest to let machine work for 5 minutes or 2 cyclyes of 5 Minutes in one time.

• After using the hydrogen - water cup, clean it promptly.

• The cup body and lid can be cleaned with dishwashing detergent. For the base, use citric acid. Pour an appropriate amount of citric acid into clear water and wait until it is completely dissolved, then pour it into the base for soaking. Note that it should not be soaked for a long time. The soaking time should only be 10 minutes. Long - term soaking may cause citric acid to corrode and contaminate the membrane electrode.

• Hydrogen - water may have neuroprotective effects. In some studies, it has shown the potential to protect neurons from damage caused by ischemia - reperfusion injury (such as in stroke cases). The brain is highly vulnerable to oxidative stress and inflammation, and the antioxidant and anti - inflammatory properties of hydrogen can help to maintain the integrity of nerve cells and support normal neurological function.
• It may also have a positive impact on cognitive function and mood. Some research suggests that it could improve memory, learning ability, and reduce symptoms of anxiety and depression, although more research is needed to confirm these effects.

• There is some evidence that hydrogen - water can improve lipid metabolism. It may help to reduce blood lipid levels, such as triglycerides and cholesterol, which are risk factors for cardiovascular diseases.
• It might also have a role in improving glucose metabolism. In diabetic or pre - diabetic conditions, hydrogen - water could potentially assist in regulating blood sugar levels and improving insulin sensitivity.

1. Respiratory Diseases
   • Asthma
     • Disease Mechanism: Asthma is a chronic inflammatory airway disease. Inflammatory cells (such as eosinophils, mast cells, etc.) and inflammatory mediators (such as histamine, leukotrienes, etc.) aggregate and are released in the airways, leading to airway hyper - responsiveness, increased mucus secretion, and airway narrowing.
     • Role of Hydrogen: Hydrogen can reduce airway inflammation. Studies have found that inhaling hydrogen can reduce the infiltration of inflammatory cells in the airway mucosa and decrease the levels of inflammatory mediators. For example, hydrogen can inhibit mast cell degranulation and reduce the release of mediators such as histamine, thereby alleviating asthma symptoms and improving patients' lung function and quality of life.
   • Chronic Obstructive Pulmonary Disease (COPD)
     • Disease Mechanism: COPD is mainly caused by factors such as smoking and air pollution, resulting in chronic inflammation of the airways and lungs, leading to airflow limitation and progressive decline in lung function. The inflammatory response runs through the entire course of COPD and involves a variety of inflammatory cells and cytokines.
     • Role of Hydrogen: Pre - clinical studies have shown that hydrogen can reduce the inflammatory response of COPD through its anti - inflammatory effect. It may inhibit the inflammation - related signaling pathway, such as the Nuclear Factor - κB (NF - κB) pathway, reduce the production of inflammatory cytokines (such as interleukin - 8), and thus relieve lung inflammation and alleviate symptoms such as dyspnea.
2. Cardiovascular Diseases
   • Coronary Heart Disease
     • Disease Mechanism: Coronary heart disease is a heart disease caused by myocardial ischemia and hypoxia due to coronary atherosclerosis. Inflammation plays a crucial role in the occurrence and development of atherosclerosis. Inflammatory cells (such as monocytes, macrophages) adhere to the vascular endothelium, take up lipids to form foam cells, and promote the formation and development of plaques.
     • Role of Hydrogen: Hydrogen can inhibit vascular inflammatory responses. Clinical studies have shown that drinking hydrogen - water or inhaling hydrogen may inhibit the progression of atherosclerotic plaques by reducing the adhesion of inflammatory cells and the release of inflammatory factors. For example, hydrogen can reduce the levels of inflammatory markers such as high - sensitivity C - reactive protein (hs - CRP) in the blood and protect the myocardium of patients with coronary heart disease.
   • Myocardial Infarction
     • Disease Mechanism: Myocardial infarction is caused by a sudden blockage of the coronary artery, leading to ischemic necrosis of myocardial cells. After a myocardial infarction occurs, the inflammatory response is quickly initiated, and inflammatory cells gather in the infarcted area and release inflammatory factors, which will aggravate myocardial damage and cardiac remodeling to some extent.
     • Role of Hydrogen: Hydrogen has potential application value in the treatment of myocardial infarction. Studies have found that in a myocardial infarction model, hydrogen can reduce the inflammatory response in the peri - infarct area, reduce the infiltration of inflammatory cells and the production of inflammatory factors, thereby reducing the infarct size and improving cardiac function.
3. Digestive System Diseases
   • Inflammatory Bowel Disease (IBD)
     • Disease Mechanism: IBD includes ulcerative colitis and Crohn's disease. It is a chronic intestinal inflammatory disease. The intestinal mucosal immune system is abnormally activated, a large number of inflammatory cells infiltrate the intestinal mucosa, produce inflammatory factors, and lead to intestinal mucosal damage, ulcer formation, and symptoms such as diarrhea.
     • Role of Hydrogen: Hydrogen has an anti - inflammatory treatment effect on IBD. Clinical studies have shown that drinking hydrogen - water or rectal perfusion of hydrogen - water can reduce intestinal inflammation and promote the repair of the intestinal mucosa. Hydrogen can inhibit the activation of intestinal inflammatory cells (such as macrophages, neutrophils), reduce the levels of inflammatory factors (such as interleukin - 1β, tumor necrosis factor - α, etc.), and improve the intestinal inflammatory state.
4. Nervous System Diseases
   • Alzheimer's Disease (AD)
     • Disease Mechanism: AD is a neurodegenerative disease. There is a chronic inflammatory response in the brain. Microglia are abnormally activated and release inflammatory factors, leading to neuronal damage and cognitive decline.
     • Role of Hydrogen: Hydrogen may play a certain therapeutic role in AD through its anti - inflammatory effect. Studies have found that hydrogen can inhibit the activation of microglia, reduce the release of inflammatory factors (such as interleukin - 1β, interleukin - 6, etc.), reduce the inflammatory response in the brain, and thus may delay the progression of AD and improve patients' cognitive function.
   • Parkinson's Disease (PD)
     • Disease Mechanism: PD is also a neurodegenerative disease, and brain inflammation plays an important role in its pathogenesis. The inflammatory response leads to damage to dopaminergic neurons and symptoms such as movement disorders.
     • Role of Hydrogen: Hydrogen can reduce inflammation in the brain and may have a protective effect on PD patients. Pre - clinical studies have shown that hydrogen can inhibit the brain - inflammation - related signaling pathway, reduce the damage of inflammatory cells to dopaminergic neurons, and improve the motor function of Parkinson's disease animal models.

1. Suitable Population
   • People Who Do Sports: A large number of free radicals are produced during exercise, leading to oxidative stress and inflammatory responses. The antioxidant and anti - inflammatory properties of hydrogen - water can help people who do sports relieve muscle fatigue, promote recovery, and reduce muscle soreness after exercise. For example, athletes may recover their physical strength more quickly and improve their subsequent sports performance by drinking hydrogen - water after high - intensity training or competitions.
   • Middle - aged and Elderly People: As people age, the body's antioxidant capacity decreases, and more free radicals accumulate in the body, which easily leads to various chronic diseases. Hydrogen - water can be used as an auxiliary health - care measure to help middle - aged and elderly people scavenge free radicals and reduce the damage of oxidative stress to the body. For middle - aged and elderly people with chronic diseases such as cardiovascular diseases, neurodegenerative diseases (such as Alzheimer's disease and Parkinson's disease), or diabetes, hydrogen - water may, to some extent, assist in alleviating the conditions.
   • Office Workers and People Under Stress: Long - term work pressure and bad living habits can lead the body to a sub - healthy state, with oxidative stress and inflammation. Hydrogen - water can improve this state, help relieve fatigue, anxiety and other symptoms, and improve the body's ability to withstand stress. For example, drinking hydrogen - water during a busy workday may help relieve mental stress and make people feel more relaxed.
   • People with Inflammation - related Diseases: Such as patients with rheumatoid arthritis, inflammatory bowel disease, asthma and other inflammatory diseases. The anti - inflammatory effect of hydrogen - water may assist traditional treatments, relieve inflammation symptoms, and improve the quality of life of patients.
2. Safety
   • Safety in General Cases: Under normal usage dosage, hydrogen - water is relatively safe. Hydrogen itself is an endogenous gas, and a small amount of hydrogen is also produced by the human intestinal flora during metabolism. After drinking hydrogen - water, hydrogen is mainly excreted out of the body through respiration and will not accumulate in large amounts in the body. Many animal experiments and preliminary human studies have not found obvious toxic and side effects of hydrogen - water.
   • Considerations in Special Cases: Although hydrogen - water is usually safe, for some special populations, such as patients with severe renal dysfunction, since the excretion of hydrogen metabolites or other components of hydrogen - water by the kidneys may be affected, they should consult a doctor's opinion before using hydrogen - water. In addition, the quality of hydrogen - water products on the market varies greatly. When choosing hydrogen - water, it is necessary to ensure that its production process meets the standards to avoid potential risks caused by product quality problems.
   • In China, hydrogen is a new variety of food additive. This classification indicates that hydrogen has a relatively high level of safety and is suitable for everyone.

Antioxidant Effects

1. Theoretical Basis
   The human body generates a large amount of reactive oxygen species (ROS) under the influence of normal metabolism and environmental factors (such as ultraviolet rays, pollution, etc.). ROS includes superoxide anions, and hydroxyl radicals. Among them, the hydroxyl radical is the most reactive and the most harmful to cells. Hydrogen has the characteristic of selective antioxidation. It can selectively neutralize hydroxyl radicals and convert them into water, thereby reducing the oxidative damage of free radicals to cells. Chemically, the reaction equation between hydrogen (H2) and hydroxyl radicals (·OH) is: H2 + 2·OH → 2H2O.
2. Research Evidence
   In some animal experiments, after animals were given hydrogen water to drink, it was found that the oxidative stress indicators in their bodies improved. For example, for mice with oxidative damage caused by radiation, drinking hydrogen water could reduce the content of malondialdehyde (MDA) in their bodies. MDA is a product of lipid peroxidation, and the decrease in its content indicates that hydrogen water may have reduced the oxidative damage to intracellular lipids.
   In some small-scale human studies, a similar phenomenon was also observed. For some people who have been engaged in high-intensity physical or mental work for a long time, after drinking hydrogen water for a period of time, the activity of antioxidant enzymes such as superoxide dismutase (SOD) in their blood increased. The increase in the activity of SOD means that the body's antioxidant capacity may have been enhanced.

Anti-inflammatory Effects

1. Theoretical Basis
   The inflammatory response is a defense mechanism of the body in response to injury or infection, but chronic inflammation can lead to the occurrence and development of many diseases. Hydrogen can play an anti-inflammatory role by regulating inflammation-related signaling pathways. For example, hydrogen can inhibit the activation of nuclear factor-κB (NF-κB). NF-κB is a key transcription factor that plays a central role in the inflammatory response and can induce the expression of multiple inflammatory factors such as interleukin-1β (IL-1β), interleukin-6 (IL-6), and tumor necrosis factor-α (TNF-α). Hydrogen inhibits the activation of NF-κB, thereby reducing the production of these inflammatory factors and alleviating the inflammatory response.
2. Research Evidence
   In the study of inflammatory bowel disease (IBD), it was found that drinking hydrogen water could reduce intestinal inflammation. In animal models, hydrogen water could reduce the expression of inflammatory factors such as IL-1β and TNF-α in the intestinal tissues of IBD model animals and improve the inflammatory damage of the intestinal mucosa. In some preliminary clinical trials on IBD patients, it was also observed that drinking hydrogen water could relieve patients' symptoms such as diarrhea and abdominal pain, and the degree of inflammation of the intestinal mucosa was also alleviated to some extent.

Potential Benefits for the Nervous System

1. Theoretical Basis
   The brain is an organ with a high metabolic rate and is vulnerable to oxidative stress and inflammation. The antioxidant and anti-inflammatory properties of hydrogen may play a protective role for the nervous system. In addition, hydrogen may also affect the function of the nervous system by regulating the metabolism of neurotransmitters. For example, hydrogen may affect the metabolism of glutamate. Glutamate is an important excitatory neurotransmitter. In some neurodegenerative diseases, the excessive release of glutamate can lead to excitotoxicity and cause damage to neurons. Hydrogen may reduce this excitotoxicity by regulating the uptake and release of glutamate.
2. Research Evidence
   In animal model studies of neurodegenerative diseases such as Alzheimer's disease (AD) and Parkinson's disease (PD), it was found that hydrogen water could improve the cognitive and motor functions of animals. In AD model mice, after drinking hydrogen water, the performance of the mice in the maze test improved, indicating that their spatial memory ability may have been enhanced. In PD model animals, hydrogen water could alleviate the symptoms of motor disorders such as tremors and stiffness. However, most of these studies are still in the animal experiment stage, and the effects in humans still need more clinical trials to verify.

1. Research Limitations
   Currently, many studies on hydrogen water, especially those in humans, are still in the preliminary stage. Most studies have small sample sizes, short study durations, and lack long-term, large-scale, double-blind controlled clinical trials. Therefore, the effectiveness of hydrogen water has not been conclusively proven.
2. Individual Differences
   Different individuals may have different responses to hydrogen water. Factors such as the physiological state, underlying diseases, and lifestyle of the human body will all affect the effect of hydrogen water. For example, a healthy young person and an elderly person with multiple chronic diseases may have different reactions after drinking hydrogen water.

Thank you for your support and trust in us. You can reach out to us either through online contact or by sending an inquiry. We will address your concerns as promptly as possible. Wishing you a pleasant life and robust health. Should you have any further needs or thoughts, don't hesitate to get in touch with us. We look forward to serving you again in the future.