参考文献

1.Treyin ZN，Ghosh M，Gksel Z，et al.Exhaled Breath Analysis in Diagnosis of Malignant Pleural Mesothelioma：Systematic Review.International Journal of Environmental Research and Public Health，2020，17（3）：1110.

2.Chen MX，Wang SY，Kuo CH，et al.Metabolome analysis for investigating host-gut microbiota interactions.J Formos Med Assoc，2019，118 Suppl 1：S10-S22.

3.Bos LDJ.Diagnosis of acute respiratory distress syndrome by exhaled breath analysis.Ann Transl Med，2018，6（2）：33.

4.Saasa V，Malwela T，Beukes M，et al.Sensing Technologies for Detection of Acetone in Human Breath for Diabetes Diagnosis and Monitoring.Diagnostics（ Basel），2018，8（1）：12.

5.Santini G，Mores N，Penas A，et al.Electronic Nose and Exhaled Breath NMR-based Metabolomics Applications in Airways Disease.Curr Top Med Chem，2016，16（14）：1610-1630.

6.Wang Y，Jiang J，Hua L，et al.High-Pressure Photon Ionization Source for TOFMS and Its Application for Online Breath Analysis.Analytical Chemistry，2016，88（18）：9047-9055.

7.Hua L，Hou K，Chen P，et al.Realization of in-source collision-induced dissociation in single-photon ionization time-of-flight mass spectrometry and its application for differentiation of isobaric compounds.Analytical Chemistry，2015，87（4）：2427-2433.

8.Xie Y，Ping C，Lei H，et al.Rapid Identification and Quantification of Linear Olefin Isomers by Online Ozonolysis-Single Photon Ionization Time-of-Flight Mass Spectrometry.J Am Soc Mass Spectrom，2016，27（1）：144-152.

9.Pugliese G，Trefz P，Brock B，et al.Extending PTR based breath analysis to real-time monitoring of reactive volatile organic compounds.Analyst，2019，144（24）：7359-7367.

10.Ma lá skov á M，Henderson B，Chellayah PD，et al.Proton transfer reaction time-of-flight mass spectrometric measurements of volatile compounds contained in peppermint oil capsules of relevance to real-time pharmacokinetic breath studies.J Breath Res，2019，13（4）：046009.

11.N ú ñez-Naveira L，LA Mariñas-Pardo，Montero-Mar ít nez C.Mass Spectrometry Analysis of the Exhaled Breath Condensate and Proposal of Dermcidin and S100A9 as Possible Markers for Lung Cancer Prognosis.Lung，2019，197（4）：523-531.

12.Bayrakli I.Breath analysis using external cavity diode lasers：a review.J Biomed Opt，2017，22（4）：40901.

13.Henderson B，Khodabakhsh A，Metsälä M，et al.Laser spectroscopy for breath analysis：towards clinical implementation.Appl Phys B，2018，124（8）：161.

14.Chen Y，Zhang Y，Pan F，et al.Breath Analysis Based on Surface-Enhanced Raman Scattering Sensors Distinguishes Early and Advanced Gastric Cancer Patients from Healthy Persons.ACS Nano，2016，10（9）：8169-8179.

15.G ü ntner AT，Pineau NJ，Mochalski P，et al.Sniffing Entrapped Humans with Sensor Arrays.Anal Chem，2018，90（8）：4940-4945.

16.Ghorbani R，F M Schmidt.Real-time breath gas analysis of CO and CO2 using an EC-QCL.Applied Physics B，2017，123（5）：144.

17.Pakmanesh N，et al.Quantum cascade laser-based sensors for the detection of exhaled carbon monoxide.Applied Physics B，2016，122（1）：1-9.

18.Maignan M，Gennai S，Debaty G，et al.Exhaled carbon monoxide is correlated with ischemia reperfusion injuries during ex vivo lung perfusion in pigs.J Breath Res，2017，11（3）：036004.

19.Khodabakhsh A，Rutkowski L，Morville J，et al.Mid-infrared continuous-filtering Vernier spectroscopy using a doubly resonant optical parametric oscillator.Applied Physics B，2017，123（7）：210.

20.Kara O，Maidment L，Gardiner T，et al.Dual-comb spectroscopy in the spectral fingerprint region using OPGaP optical parametric oscillators.Optics Express，2017，25（26）：32713.

21.Natale C D，Paolesse R，Martinelli E，et al.Solid-state gas sensors for breath analysis：A review.Analytica chimica acta，2014，824：1-17.

22.Schroeder V，Savagatrup S，He M，et al.Carbon Nanotube Chemical Sensors.Chem Rev，2019，119（1）：599-663.

23.Nicole I，Eric H，Joseph S.Nitric Oxide Sensors for Biological Applications.Chemosensors，2018，6：1-13.

24.G ü ntner AT，Sievi NA，Theodore SJ，et al.Noninvasive Body Fat Burn Monitoring from Exhaled Acetone with Si-doped WO3-sensing Nanoparticles.Anal Chem，2017，89（19）：10578-10584.

25.Akamatsu T，Itoh T，Shin W.Mixed-Potential Gas Sensors Using an Electrolyte Consisting of Zinc Phosphate Glass and Benzimidazole.Sensors，2017，17：1-8.

26.Schon S，Theodore S J，Güntner A T.Versatile Breath Sampler for Online Gas Sensor Analysis.Sensors and Actuators B：Chemical，2018，273：1780-1785.

27.van den Broek J，Güntner A T，Pratsinis S E.Highly Selective and Rapid Breath Isoprene Sensing Enabled by Activated Alumina Filter.ACS Sensor，2018，3（3）：677-683.

28.Guntner AT，Koren V，Chikkadi K，et al.E-nose sensing of low-ppb formaldehyde in gas mixtures at high relative humidity for breath screening of lung cancer？ ACS Sens，2016，1：528-535.

29.Broza YY，Vishinkin R，Barash O，et al.Synergy between nanomaterials and volatile organic compounds for noninvasive medical evaluation.Chem Soc Rev，2018，47（13）：4781-4859.

30.Potyrailo RA.Toward high value sensing：monolayer-protected metal nanoparticles in multivariable gas and vapor sensors.Chem Soc Rev，2017，46（17）：5311-5346.

31.Shehada N，Cancilla JC，Torrecilla JS，et al.Silicon nanowire sensors enable diagnosis of patients via exhaled breath.ACS Nano，2016，10（7）：7047-7057.

32.Li Z，Suslick KS.Colorimetric Sensor Array for Monitoring CO and Ethylene.Anal Chem，2019，91（1）：797-802.

33.Behera B，Joshi R，Anil Vishnu GK，et al.Electronic nose：a non-invasive technology for breath analysis of diabetes and lung cancer patients.J Breath Res，2019，13（2）：024001.

34.Tarik Saidi，Omar Zaim，Mohammed Moufid，et al.Exhaled breath analysis using electronic nose and gas chromatography-mass spectrometry for non-invasive diagnosis of chronic kidney disease，diabetes mellitus and healthy subjects.Sensors and Actuators B：Chemical，2018，257：178-188. /5HQlZwaB6NTI2bew/099TE/kNPoY/Oa7r3gnHz91fdEkFcVJ50UgQakOzOO1zqE