Black phosphorus crystal having high photoelectric response rate, two-dimensional black phosphorus PN junction, and preparation method and use thereof
First Claim
1. A black phosphorus crystal having a high photoelectric response rate, the black phosphorus crystal being a single crystal with a spatial point group Cmca (No. 64), cell parameters a=3.2-3.4 Å
- , b=10.4-10.6 Å
, c=4.3-4.5 Å
, and an interlayer spacing of 4-6 Å
, a characteristic XRD pattern of the black phosphorus crystal comprises 5 2θ
peaks;
17.1°
, 26.6°
, 34.4°
, 40.2°
, and 52.5°
, a doped element within the black phosphorus crystal comprises any one or a combination of two or more of phosphorus, boron, carbon, sodium, magnesium, sulfur, potassium, arsenic, stibium, bismuth, selenium, tellurium, ferrum, nickel, fluorine, chlorine, bromine, or hydrogen, and an XPS spectrum of the black phosphorus crystal comprises at least one of following characteristic peaks;
phosphorus 129-132 eV, boron 189-194 eV, carbon 283-286 eV, sodium 1064-1080 eV, magnesium 1290-1320 eV, sulfur 160-172 eV, potassium 290-300 eV, arsenic 40-50 eV, stibium 32-36 eV, bismuth 156-160 eV, selenium 53-58 eV, tellurium 567-590 eV, ferrum 718-723 eV, nickel 850-855 eV, fluorine 682-690 eV, chlorine 194-202 eV, or bromine 66-70 eV.
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Abstract
A black phosphorus crystal having a high photoelectric response rate, a two-dimensional black phosphorus PN junction, and preparation method and use thereof. The black phosphorus crystal is a single crystal with a spatial point group Cmca (No. 64), cell parameters a=3.2-3.4 Å, b=10.4-10.6 Å, c=4.3-4.5 Å, and an interlayer spacing of 4-6 Å, and is characterized by a high photoelectric response rate, an adjustable semiconductor type, and the like. The two-dimensional black phosphorus PN junction includes a two-dimensional black phosphorus film, a first area of the film forming an n-type semiconductor by n-type doping, a second area of the film is maintained as a p-type semiconductor, and the first area is adjacent to the second area, to enable the n-type semiconductor to be combined with the p-type semiconductor to form the PN junction. The two-dimensional black phosphorus PN junction has properties such as a unidirectional conductivity, or a special photovoltaic effect.
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Citations
16 Claims
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1. A black phosphorus crystal having a high photoelectric response rate, the black phosphorus crystal being a single crystal with a spatial point group Cmca (No. 64), cell parameters a=3.2-3.4 Å
- , b=10.4-10.6 Å
, c=4.3-4.5 Å
, and an interlayer spacing of 4-6 Å
, a characteristic XRD pattern of the black phosphorus crystal comprises 5 2θ
peaks;
17.1°
, 26.6°
, 34.4°
, 40.2°
, and 52.5°
, a doped element within the black phosphorus crystal comprises any one or a combination of two or more of phosphorus, boron, carbon, sodium, magnesium, sulfur, potassium, arsenic, stibium, bismuth, selenium, tellurium, ferrum, nickel, fluorine, chlorine, bromine, or hydrogen, and an XPS spectrum of the black phosphorus crystal comprises at least one of following characteristic peaks;
phosphorus 129-132 eV, boron 189-194 eV, carbon 283-286 eV, sodium 1064-1080 eV, magnesium 1290-1320 eV, sulfur 160-172 eV, potassium 290-300 eV, arsenic 40-50 eV, stibium 32-36 eV, bismuth 156-160 eV, selenium 53-58 eV, tellurium 567-590 eV, ferrum 718-723 eV, nickel 850-855 eV, fluorine 682-690 eV, chlorine 194-202 eV, or bromine 66-70 eV. - View Dependent Claims (2, 3, 4, 5)
- , b=10.4-10.6 Å
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6. A preparation method of a black phosphorus crystal having a high photoelectric response rate, comprising:
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providing a growth precursor, the growth precursor comprising red phosphorus, a mineralizer, and a doped element at a mass ratio of (100-600);
(10-100);
(0.1-10), wherein the doped element comprises any one or a combination of two or more of selenium, sulfur, carbon, boron, arsenic, sodium, magnesium, potassium, stibium, bismuth, selenium, tellurium, ferrum, nickel, fluorine, chlorine, bromine, or hydrogen; andplacing the growth precursor in a sealed reactor having an inner chamber in a vacuum environment, and successively heating the reactor accommodating the growth precursor first by heating from room temperature to 600-850°
C. within 1-3 hours, and thermostatically controlling for 1-3 hours, then by cooling to 450-550°
C. within 1-24 hours, and thermostatically controlling for 1-12 hours, then by cooling to 100-200°
C. within 1-4 hours, and then by cooling to room temperature within 1-3 hours, and finally forming the black phosphorus crystal having a high photoelectric response rate. - View Dependent Claims (7)
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- 8. A two-dimensional black phosphorus PN junction, comprising a two-dimensional black phosphorus film, a first area of the black phosphorus film forming an n-type semiconductor by n-type doping, a second area of the black phosphorus film being maintained as a p-type semiconductor, the first area being adjacent to the second area, enabling the n-type semiconductor to be combined with the p-type semiconductor to form the PN junction.
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12. A two-dimensional black phosphorus PN junction, comprising a two-dimensional black phosphorus film, at least a local surface area of the black phosphorus film being coated with a film having a charge transfer doping property;
- the black phosphorus film forming an n-type semiconductor by doping at least at a junction interface of the black phosphorus film and the film having a charge transfer doping property;
the black phosphorus film further comprising black phosphorus as a p-type semiconductor; and
the n-type semiconductor being combined with the p-type semiconductor to form the PN junction, while the two-dimensional black phosphorus PN junction has a unidirectional conductivity and/or a photovoltaic property, and parameters characterizing the photovoltaic property include;
a short circuit current of the two-dimensional black phosphorus PN junction being 1-200 nA, its open circuit voltage being 1-500 mV, and its maximum output power being 1-100 nW. - View Dependent Claims (13)
- the black phosphorus film forming an n-type semiconductor by doping at least at a junction interface of the black phosphorus film and the film having a charge transfer doping property;
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14. A preparation method of a two-dimensional black phosphorus PN junction, comprising:
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providing a two-dimensional black phosphorus film; and forming an n-type semiconductor by n-type doping on a local area of the black phosphorus film, enabling other local area of the black phosphorus film to be maintained as a p-type semiconductor, and enabling the n-type semiconductor to be combined with the p-type semiconductor to form the PN junction. - View Dependent Claims (15, 16)
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Specification