GLOBAL ZINC OXIDE NANOROD SENSOR MARKET

INTRODUCTION

Azinc oxide nanorodsensor or ZnOnanorod sensoris an electronic or optical device detecting presence of certain gas or liquid molecules (e.g. humidity,NO, hydrogen,]etc.) in the ambient atmosphere.

The sensor exploits enhanced surface area (and thus surface activity) intrinsic to all nano-sized materials, including ZnO nanorods.Adsorptionof molecules on the nanorods can be detected through variation of the nanorods' properties, such as photoluminescence,electrical conductivity, vibration frequency, mass, etc.

The simplest and thus most popular way is to passelectrical currentthrough the nanorods and observe its changes upon exposure to gas. Synthesis can be obtained by a hydrothermal method using Molar solution of hexamine and Zinc nitrate solution kept together for two and half days in an autoclave at certain degree Celsius. 

Among various kinds of ZnO allotropes, the ZnO nanorods (NRs) has attracted much attention because of its wide applications in light emitting diodes and lasers , light detectors , photocatalytic applications, solar cells , gas sensors , and power nanogenerators.

GLOBAL ZINC OXIDE NANOROD SENSOR MARKET SIZE AND FORECAST

The Global Zinc oxide nanorod sensor market accounted for $XX Billion in 2022 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2023 to 2030.

NEW PRODUCT LAUNCH

MDPI SMF 28 - The concept of the sensor design is based on single-mode–multimode–single-mode (SMS) fiber structure. The single-mode fiber acts as a waveguide for delivering light from the source to the sensing region and then to the detector, which is the spectrometer.

It is utilized for recording the intensity spectra. On the other hand, the ZnO nanorods-coated multimode fiber acts as a sensing region.

The multimode fiber (MMF) or coreless silica fiber (CSF) allows higher interaction of light at the sensor surface. This occurs due to the removal of the cladding region and hence we achieve a small index contrast between the fiber and the surrounding medium that allows a larger number of modes propagating inside the fiber compared with standard MMFs.

SMF 28 was used as a single-mode fiber (SMF). Coreless silica fiber (CSF) with a diameter of 125 µm was used as a multimode fiber (MMF) region in the SMS optical fiber sensor structure.

Sumitomo Electric Z2C core alignment fusion splicer and Sumitomo Electric FC-6S fiber cleaver were used for fiber assembly. For the hydrothermal growth process of ZnO nanorods, zinc acetate dihydrate (Merck KGaA, Darmstadt, Germany, CAS number 5970-45-6), zinc nitrate hexahydrate [Zn (NO3)2.6H2O]

(Ajax Finechem Pty Ltd., New South Wales, Australia, CAS number 10196-18-6) and hexamethylenetetramine or HMT [(CH2)6N4] (Sigma-Aldrich, Bangkok, Thailand, CAS number 100-97-0) were used. All the chemicals were of analytical grade and used without further purification.

COMPANY PROFILE

• MDPI 
• MT
• OPG
• Optica
• IOP Science

THIS REPORT WILL ANSWER FOLLOWING QUESTIONS

1. How many Zinc oxide nanorod sensor are manufactured per annum globally? Who are the sub-component suppliers in different regions?
2. Cost breakup of a Global Zinc oxide nanorod sensor and key vendor selection criteria
3. Where is the Zinc oxide nanorod sensor manufactured? What is the average margin per unit?
4. Market share of Global Zinc oxide nanorod sensor market manufacturers and their upcoming products
5. Cost advantage for OEMs who manufacture Global Zinc oxide nanorod sensor in-house
6. key predictions for next 5 years in Global Zinc oxide nanorod sensor market
7. Average B-2-B Zinc oxide nanorod sensor market price in all segments
8. Latest trends in Zinc oxide nanorod sensor market, by every market segment
9. The market size (both volume and value) of the Zinc oxide nanorod sensor market in 2023-2030 and every year in between?
10. Production breakup of Zinc oxide nanorod sensor market, by suppliers and their OEM relationship