Building an efficient detection system has always been one of the biggest challenges in the detection field. In the field of science and engineering, we need to detect the concentration of many substances every day. In every country and region, many people need to detect the concentration of specific substances in sewage and body fluids. When designing the system at each stage, we always remind ourselves that the purpose of this project is to establish an efficient, accurate, and low-cost system and achieve sustainable development. We are committed to applying efficient detection systems to promote sustainable development.

We believe that transforming our innovation into a well-known enterprise will bring us closer to an efficient detection system. From these 17 goals, our team will use four of them as guidelines to comply with the goal of an efficient detection system. We pay close attention to underwater life and build partnerships to achieve our goals. We are committed to developing an efficient testing system. Under our scientific and engineering background, we are committed to developing efficient, low-cost, and reliable detection systems. The work of our team can promote cooperation between different organizations to achieve the goals set. At the same time, our development is sustainable. We are committed to establishing an efficient detection system to improve the efficiency and accuracy of detection. Therefore, our innovation is very valuable.

SDG 11

Sustainable Cities and Communities

It can be said that low cost is our biggest feature. Low capital costs, low time costs, and low personnel costs make our inspection systems extremely attractive. Our detection system is very simple and portable, it is easy to use, and it is the perfect choice for detecting the concentration of specific substances.

Compared to current detection techniques, THINKER CHINA's solution is less expensive and more effective. Our process is incredibly easy to follow and doesn't take much time or resources. It doesn't call for expensive machinery or a lot of personnel or resources. Additionally, our detection system is incredibly straightforward to use, portable, and simple, making it the ideal option for determining the concentration of particular compounds.

Due to the compact size of our detection system, it can be installed without taking up much space, which also lowers the cost of transportation. Additionally, much of the scientific equipment needed for detection is reasonably priced.

And this can provide an effective solution for those in relatively disadvantaged areas, especially those in developing countries. It’s an effective way to strengthen their scientific and technological capacity. While popularizing biosensors, the sustainability philosophy we infuse into our products wil

SDG 12

Responsible Consumption and Production 

Nowadays, our daily lives are closely connected to nature. Our reliance on natural resources increased by over 65% globally from 2000 to 2019. The ensuing consequences are apparent: abuse of resources, unsustainable and inefficient use of natural resources, profound chemical wastes, etc.

Compared to traditional detection methods, our biosensor is lower-cost, more efficient, easier to operate, and most importantly, more sustainable. The traditional chemical detection methods always involve heavy, expensive, and specialized instruments, which might result in high levels of contamination to nature. The traditional biological detection method is a relatively cutting-edge method. Still, the high price of detection equipment and the requirements of detection on operators make the biological detection method comes with relatively high energy consumption during manufacturing and application processes. Our biosensor is battery-free, which eliminates unnecessary electronic waste. As our biosensor is based on E. coil, a renewable biomaterial, it thus avoids the additional energy consumption in the manufacture of plastic housings, internal metal circuits, etc. In the whole biosensor manufacturing process, we will choose recyclable plastic as the raw material.

One of the most important features of our biosensor is that it is more feasible than traditional detection methods. As most traditional detection methods require specific apparatus, it makes biological detection methods unable to be popularized. Our biosensor provides a cheaper and more efficient detection method with a more straightforward operation.


SDG 14

Life Below Water

The underwater world is very colorful. There are many animals and plants in the underwater world. With our novel technology, we can realize the full potential of underwater life. Our detection methods can help people better understand the content of various substances in underwater life. It is very simple and efficient. Using our detection method, people can understand the content of various substances in underwater life in a very short time, especially the content of some substances of great medical value. This helps us to understand the utilization value of these organisms further.

Traditional chemical detection methods can cause high levels of contamination. Physical detection methods have high requirements on instruments and require a lot of financial and human resources to achieve physical detection. The biological detection method is a relatively advanced method, but the high price of detection equipment and the detection requirements of operators make it impossible to popularize biological detection methods.

The best way to detect the content of various substances in aquatic life is our method. The detection method we developed is cheaper and more efficient than existing detection methods. We exploit the bacterial tolerance mechanism to various chemical elements to detect and report the concentration of measured ions in the solution. In the process of studying aquatic life, we can efficiently detect the content of substances with anti-cancer and other effects. We can help people determine whether an aquatic organism has a medicinal value very efficiently.

Our features include low cost, high efficiency, and convenience. Low capital cost, low time cost, and low labor cost make our inspection system very attractive. Our detection systems advance the understanding of aquatic life. People can efficiently screen out aquatic organisms that are useful to people at low cost and cultivate such aquatic organisms in large quantities to serve the purpose of people.

Using our detection system, we can achieve sustainable development related to aquatic life more efficiently. That is to say that we can efficiently determine which aquatic organisms are valuable and how they will contribute to sustainable development by detecting the content of specific substances in aquatic organisms. We can efficiently determine which substances in their bodies contribute to environmental protection and medical care. This is a very meaningful thing. We can draw useful conclusions very quickly to find those species of aquatic life that contribute most to sustainable development. Everyone can use our technology to obtain important information about aquatic life and use useful substances in aquatic life to achieve sustainable development.

SDG 17

Partnership for Goals

With the rising productivity of human society, the utilization rate of natural resources is also gradually increasing. As far as the harmonious development of nature is concerned, excessive production demand represents the possibility of natural environment destruction. For the harmonious development of human society and nature, it is necessary to propose practical environmental protection policies, effectively protect natural resources and maintain natural ecological harmony from the perspective of various technical means. The destruction of the ecological environment will affect not only the effective storage of natural resources but also a challenge to human survival and will have a certain impact on the development of the entire human society, resulting in the inability to establish a harmonious ecological relationship between man and nature. Improving the development and utilization level of environmental detection technology is the basic condition for protecting the ecological environment at present. Environmental detection technology provides data support for ecological protection and is the eye of ecological environment protection. Only by quantitatively understanding the causes of deterioration of ecological environment quality indicators from the source can we effectively suit the remedy to the case, propose prevention and treatment measures, and solve the problem of ecological damage from the root.

Environmental detection technology will provide support for the collection and analysis of ecological quality data in a certain region, help various ecological problems find out their causes, comprehensively record the ecological environment and ecological and biological population, and help relevant environmental protection departments to formulate more scientific and reasonable policies, and provide accurate data information for their development and construction. In the current social development, the relevant national departments have formulated relevant protection policies for environmental problems and the acquisition and utilization of natural resources, which has slowed down the sustained destruction of human beings in the ecological nature to a certain extent, making sustainable development of the ecological environment a reality.

The application of environmental detection technology, in reality, will help relevant departments find out environmental pollution problems more timely and effectively, analyze the impact of various industries on ecological health, and formulate appropriate protection strategies according to specific reasons so as to ensure the healthy progress of the ecological environment. At present, in order to better protect the ecological environment, various public institutions and enterprises have widely applied environmental detection technology, ensuring the unified development of population, ecological environment, and natural resources and stabilizing the factors affecting social development.