CN1632484A - Temperature sensor based on disordered multi-wall carbon nano-tube and metal heterojunction - Google Patents

Abstract

This invention relates to a metal hetero-junction temperature sensor and its process method based on disordered multi-wall carbon nanometer tube. The temperature sensor comprises the following: multi-wall carbon nanometer tube power column filled in heat-isolation tube; metal temperature probe of carbon nanometer tube-metal heterojunction with multi-wall carbon nanometer powder column end set and tightly contacted with the carbon nanometer powder column; the conductive metal block sealed on the other end of the carbon nanometer powder column. When in work, it is first to connect electrode and outer circuit gage; then to contact the metal temperature probe and the object to be measured. In this way, the circuit can generate heat circuit changing with temperature due to the existence of the nanometer tube-metal heterojunction.

Description

Temperature sensor based on disordered multi-wall nano carbon tube-metal hetero-junction

Technical field

The present invention relates to a kind of temperature sensor, particularly based on the design of the temperature sensor of disordered carbon nanotube-metal hetero-junction.

Background technology

Temperature sensor has been widely used in the every field of life and scientific research so far.Diode temperature sensor, thermocouple temperature sensor, line-type temp sensor, Bragg grating temperature sensor etc. are arranged, and it constitutes and principle is varied, but in the limitation that all exists aspect its structure and the use separately.Carbon nano-tube has been paid close attention to by people since it is born always.Be penetrated into scientific research and various fields in life as setting a prairie fire, the mature technology of synthetic preparation carbon nano-tube also has report more.Document [Zhang XF, Cao AY, Wei BQ for example, Li YH, Wei JQ, Xu CL, and Wu DH, CHEMICAL PHYSICS LETTERS2002,362:285-290], [Ci LJ, Wei JQ, Wei BQ, Liang J, Xu CL, and Wu DH, CARBON 2001,39 (3): 329-335], [Wei JQ, Ci LJ, Jiang B, Li YH, Zhang XF, Zhu HW, Xu CL, and WuDH, JOURNAL OF MATERIALS CHEMISTRY 2003,13 (6): 1340-1344], [Yu Hao, Zhang Qunfeng, Wei Fei, Qian Weizhong, Luo Guohua, Carbon 41 (2003) 2855-2863] and [Chinese invention patent, publication number: 1456498] in relevant report is all arranged.Documents and materials show, carbon nano-tube has special level structure and excellent electrical properties, but it is a kind of simple in structure how to utilize the performance study of the excellence of carbon nano-tube to develop, and the better and temperature sensor that have a broad prospect of application of performance then is the problem that is worth very much research.

Summary of the invention

The objective of the invention is to make full use of special level structure and the excellent electrical properties that nano material has, develop a kind of have with respect to prior art simple in structure, be easy to make, measurement range is wide and have a temperature sensor than the disordered multi-wall nano carbon tube-metal hetero-junction of high measurement accuracy.

Technical scheme of the present invention is as follows: a kind of temperature sensor based on disordered multi-wall nano carbon tube-metal hetero-junction, it is characterized in that: this temperature sensor comprises the insulation and thermal insulation pipe, be filled in the multi-walled carbon nano-tubes powder pillar in the insulation and thermal insulation pipe, be arranged on multi-walled carbon nano-tubes powder pillar one end and closely contact the metal temperature probe of formation carbon nano-tube-metal hetero-junction and the conducting metal piece that envelope is pressed in the carbon nanotube powder post other end with the carbon nanotube powder post, and at metal temperature probe and conducting metal piece place difference extraction electrode.

Insulation and thermal insulation pipe of the present invention adopts evacuated double-walled glass bushing.

The present invention is with respect to prior art, and have the following advantages and the high-lighting effect: this temperature sensor is not only simple in structure, and is easy to make, with low cost, and it is wide to measure temperature range, all can guarantee same measuring accuracy on a large scale; Response time to temperature is fast.Utilization can be by measuring the big or small monitor temperature value of electrical quantities based on the temperature sensor of multi-walled carbon nano-tubes-metal hetero-junction; Otherwise, also can feed back, thereby reach the purpose of controlling temperature by monitoring to electrical quantities.Therefore, this temperature sensor has broad application prospects.

Description of drawings

Fig. 1 is the scanning electron microscope image of the used multi-wall carbon nano-tube pipe powder of the present invention.

Fig. 2 is the structural representation of temperature sensor embodiment of the present invention.

Wherein, 1 in order to be pressed in carbon nanotube powder envelope the derby in the glass tube, and 2 be the multi-walled carbon nano-tubes powder pillar, and 3 is that metal temperature is popped one's head in, and 4 is evacuated double-walled glass bushing.

Fig. 3 is the response curve of this sensor for temperature.

Fig. 4 is the response curve of the electric current variation of temperature sensor of the present invention when the measurement temperature is 260 ℃ to the time.

Embodiment

Fig. 2 is the structural representation of temperature sensor of the present invention.This temperature sensor comprises insulation and thermal insulation pipe 4, be filled in the multi-walled carbon nano-tubes powder pillar 2 in the insulation and thermal insulation pipe, be arranged on multi-walled carbon nano-tubes powder pillar one end and closely contact the metal temperature probe 3 of formation carbon nano-tube-metal hetero-junction and the conducting metal piece 1 that envelope is pressed in the carbon nano-tube post other end with the carbon nano-tube post, and at metal temperature probe and conducting metal piece place difference extraction electrode.Metal temperature probe and conducting metal piece can be to be made by metals such as copper, silver, aluminium.The method for making of this sensor is the multi-wall carbon nano-tube pipe powder to be packed into compacting forms the carbon nanotube powder post in the insulation and thermal insulation pipe, then, insert the metal temperature probe and closely contact formation carbon nano-tube-metal hetero-junction at the one end, metal difference extraction electrode at carbon nano-tube post two ends with the carbon nano-tube post.The pipe that insulation and thermal insulation pipe 4 can adopt evacuated double glazing sleeve pipe or adopt other insulation and thermal insulation material to make.The multi-wall carbon nano-tube pipe powder can be the powder with the multi-walled carbon nano-tubes of any method preparation.During work, earlier electrode is connected with the external circuit measurement instrument, then the metal temperature probe is contacted with testee, like this, because the existence of carbon nano-tube-metal hetero-junction, the electric current in the circuit will increase with the rising of probe temperature, reduces with the decline of probe temperature.

The invention will be further described to enumerate a specific embodiment below.

The present invention packs multi-wall carbon nano-tube pipe powder (as shown in Figure 1) in the evacuated double glazing sleeve pipe, compacting forms the carbon nanotube powder post, then, insert the metallic copper temp probe and closely contact formation carbon nano-tube-metal hetero-junction at the one end with the carbon nanotube powder post, other end envelope jewelling derby at the carbon nano-tube post, and the difference extraction electrode, constitute temperature sensor (as shown in Figure 2).The nanotube pillars diameter is 11mm, and length is 100mm, and resistance is 2.74 Ω, and the response curve of this sensor for temperature as shown in Figure 3.Experimental measurements shows: the thermic electric current in the sensor can increase with the rising of temperature, reduces with the reduction of temperature.Certainly, the relation between the electric current that measurement shows and the temperature of testee is influenced by ambient temperature, and therefore, concrete device needs suitably to revise according to environment temperature in use.From this temperature sensor contact during testee electric current to the response curve (as shown in Figure 4) of time as can be known, surplus the response time of this device about ten second.

Claims (2)

1. temperature sensor based on disordered multi-wall carbon nano-tube and metal heterojunction, it is characterized in that: this temperature sensor comprises insulation and thermal insulation pipe (4), be filled in the multi-walled carbon nano-tubes powder pillar (2) in the insulation and thermal insulation pipe, be arranged on multi-walled carbon nano-tubes powder pillar one end and closely contact the metal temperature probe (3) of formation Nano carbon tube-metal heterojunction and the conducting metal piece (1) that envelope is pressed in the carbon nanotube powder post other end with the carbon nanotube powder post, and at metal temperature probe and conducting metal piece place difference extraction electrode.

2. according to the described temperature sensor of claim 1, it is characterized in that: described insulation and thermal insulation pipe adopts evacuated double-walled glass bushing.