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Articles and books by others (Top To Bottom)

This overview gives some relevant publications written by third parties about sensors of Xensor.

NCM-9924 liquid nano calorimeters
TCG-3880 trans conductivity gauge
XEN-39235/-240/-273 gas nano calorimeter

on NCM-9924
(liquid nano calorimeters)
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• Chip calorimetry and its use for biochemical and cell biological investigations 
  Chemical Engineering and Processing 47 (2008) 991–999.
  J. Lerchner, T. Maskow, G. Wolf. 
   
• Calorimetry of microbial growth using a thermopile based microreactor 
  Thermochimica Acta 427 (2005) 187–191.
  J. Higuera-Guisset, J. Rodríguez-Viejo, M. Chacón, F.J. Muñoz, N. Vigués, J. Mas.
   
• Direct monitoring of biochemical processes using micro-structured heat power detectors 
  Chemical Engineering Journal 101 (2004) 187–194.
  J. Lerchner, A. Wolf, R. Hüttl, G. Wolf.

• Integrated circuit thermopile as a new type of temperature modulated calorimeter. 
  Thermochimica Acta 403 (2003) 65-81. 
  Mikhail Merzlyakov (Texas Tech University).
   
• Scanning microcalorimetry at high cooling rate. 
  Thermochimica Acta 403 (2003) 55-63.
  S.A. Adamovsky, A.A. Minakov and C. Schick (University of Rostock).
   
• Chip-calorimeter for small samples. 
  Thermochimica Acta 403 (2003) 43-53.
  Werner Winter, Günther W.H. Höhne.
    
• IC Thermopile as a New Type of Temperature Modulated Calorimeter. 
  NATAS Notes vol 34 no 4 (winter 2003) 18-21.
  Mikhail Merzlyakov and Christoph Schick (University of Rostock).
   
• Ultra fast calorimetry on controlled cooling and heating up to 10,000 K/s and isothermally with millisecond time resolution (Poster). 
  e-Polymers (2003), no. P_001.
  Minakov, A.; Adamovsky, S.; Schick, C. (University of Rostock).

• Identification of micro-scale calorimetric devices IV: Descriptive models in 3-D. 
  Journal of Thermal Analysis and Calorimetry 71 (2003) 951-966.
  C. Auguet, J. Lerchner, V. Torra and G. Wolf (University of Catalonia). 
   
• Identification of micro-scale calorimetric devices III: The 3-D effects. 
  Journal of Thermal Analysis and Calorimetry 71 (2003) 407-419.
  C. Auguet, J. Lerchner, V. Torra and G. Wolf (University of Catalonia). 
   
• Identification of micro-scale calorimetric devices II: heat transfer models from two or three-dimensional analysis. 
  Journal of Thermal Analysis and Calorimetry 68 (2002).
  C. Auguet, F. Martorell, F. Moll and V. Torra (University of Catalonia). 
   
• Accuracy in integrated circuit (IC) calorimeters. 
  Thermochimica Acta 382 (2002) 65-76.
  J. Lerchner, G. Wolf, C. Auguet, V. Torra. 
   
• Identification of micro-scale calorimetric devices I: Establishing the experimental rules for accurate measurements. 
  Journal of Thermal Analysis and Calorimetry 66 (2001) 255.
  V. Torra, C. Auguet, J. Lerchner, P. Marinelli and H. Tachoire (University of Catalonia). 
   
• Calorimetric detection of volatile organic compounds. 
  Sensors and Actuators, B 70 (2000) 57-66.
  J. Lerchner, D. Caspary, G. Wolf (Freiberg Bergakademie).
   
• A high resolution IC-calorimeter for the determination of heats of absorption onto thin coatings. 
  Thermochimica Acta 337 (1999) 19-26.
  D. Caspary, M. Schröpfer, J. Lerchner, G. Wolf (Freiberg Bergakademie). 
   
• Recent Developments in Integrated Circuit Calorimetry.
  Journal of Thermal Analysis and Calorimetry 57 (1999) 241-251. 
  J. Lerchner, A. Wolf and G. Wolf (Freiberg Bergakademie). 
   
• Supermicrocalorimetric devices for the investigation of small samples. 
  High Temperatures-High Pressures, 30 (1998) 701-708.
  J. Lerchner, R. Oehmgen, G. Wolf, P. Le Parlour, J.-L. Daudon (Freiberg Bergakademie). 
   
• Calorimetric detection of organic vapours using inclusion reactions with organic coating materials. 
  Sensors and Actuators, B 32 (1996) 71-75.
  J. Lerchner, J. Seidel, G. Wolf, E. Weber (Freiberg Bergakademie). 
   
• An integrated silicon thermopile as biosensor for the thermal monitoring of glucose, urea and penicilli. 
  Biosensors & Bioelectronics 8 (1993) 89-98.
  P. Bataillard, E. Steffgen, S. Maemmerli, A. Manz & H.M. Widmer (Novartis , formerly Ciba-Geigy). 

on TCG-3880
(trans conductivity gauge)
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• Measurement of the magnetocaloric properties of CoMn0.95Fe0.05Si: Large change with Fe substitution 
  Physical review 78, 134418 (2008).
  K. Morrison, Y. Miyoshi, J. D. Moore, A. Barcza and K. G. Sandeman , A. D. Caplin and L. F. Cohen.
   
• Hydrogen subsonic upward release and dispersion experiments in closed cylindrical vessel 
  International Conference on Hydrogen Safety (2007)
  V.P.Denisenko, I.A. Kirillov, S.V.Korobtsev, I.I. Nikolaev, A.V. Kuznetsov, V.A. Feldstein, V.V. Ustinov.
   
• Ultrafast thermal processing and nanocalorimetry at heating and cooling rates up to 1 MK/ s 
  Review of scientific instruments 78, 073902 (2007).
  A. A. Minakov, C. Schick.
   
• Temperature distribution in a thin-film chip utilized for advanced nanocalorimetry 
  Meas. Sci. Technol. 17 (2006) 199–207. 
  A. Minakov, J. Morikawa, T. Hashimoto, H. Huth, C. Schick.
   
• Scanning Nanocalorimetry at High Cooling Rate of Isotactic Polypropylene 
  Macromolecules (2006), 39, 2562-2567.
  F. De Santis, S. Amovsky, G. Titomanlio, C. Schick.
   
• Method of rapid (100 000 Ks-1) controlled cooling and heating of thin samples. 
  Thermochimica Acta 442 (2006) 52–60.
  Mikhail Merzlyakov.
   
• Melting and reorganization of the crystalline fraction and relaxation of the rigid amorphous fraction of isotactic polystyrene on fast heating (30,000 K/min) 
  Thermochimica Acta 442 (2006) 25–30.
  A.A. Minakov, D.A. Mordvintsev, R. Tol, C. Schick.
   
• Metastability of polymer crystallites formed at low temperature studied by ultra fast calorimetry: Polyamide 6 confined in sub-micrometer droplets vs. bulk PA6 
  Polymer 47 (2006) 2172–2178.
  R.T. Tol, A.A. Minakov, S.A. Adamovsky, V.B.F. Mathot, C. Schick.
   
• Non-adiabatic thin-film (chip) nanocalorimetry 
  Thermochimica Acta 432 (2005) 177–185.
  A.A. Minakov, S.A. Adamovsky, C. Schick. 
   
• Thin-film alternating current nanocalorimeter for low temperatures and high magnetic fields 
  Rev. Sci. Instrum. 76, 043906 (2005).
  A. A. Minakov, S. B. Roy, Y. V. Bugoslavsky, L. F. Cohen.
   
• Ultra-fast isothermal calorimetry using thin film sensors
  Thermochimica Acta 415 (2004) 1–7.
  S. Adamovsky, C. Schick.
   
• IC Thermopile as a New Type of Temperature Modulated Calorimeter. 
  NATAS Notes vol 34 no 4 (winter 2003) 18-21.
  Mikhail Merzlyakov and Christoph Schick (University of Rostock).
    
• Integrated circuit thermopile as a new type of temperature modulated calorimeter. 
  Thermochimica Acta 403 (2003) 65-81. 
  Mikhail Merzlyakov (Texas Tech University).
   
• Ultra fast calorimetry on controlled cooling and heating up to 10,000 K/s and isothermally with millisecond time resolution (Poster). 
  e-Polymers (2003), no. P_001.
  Minakov, A.; Adamovsky, S.; Schick, C. (University of Rostock).

• Scanning microcalorimetry at high cooling rate. 
  Thermochimica Acta 403 (2003) 55-63.
  S.A. Adamovsky, A.A. Minakov and C. Schick (University of Rostock).

   on XEN-39235/-240/-273
      (gas nano calorimeters)  
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• Advanced nonadiabatic ultrafast nanocalorimetry and superheating phenomenon in linear polymers
  Thermochimica Acta 461 (2007) 96–106.
  A.A. Minakov, A.W. van Herwaarden, W. Wien, A. Wurm, C. Schick.
   
• Integrated circuit thermopile as a new type of temperature modulated calorimeter. 
  Thermochimica Acta 403 (2003) 65-81. 
  Mikhail Merzlyakov (Texas Tech University).
   
• Scanning microcalorimetry at high cooling rate. 
  Thermochimica Acta 403 (2003) 55-63.
  S.A. Adamovsky, A.A. Minakov and C. Schick (University of Rostock).
   
• IC Thermopile as a New Type of Temperature Modulated Calorimeter. 
  NATAS Notes vol 34 no 4 (winter 2003) 18-21.
  Mikhail Merzlyakov and Christoph Schick (University of Rostock).
    
• Ultra fast calorimetry on controlled cooling and heating up to 10,000 K/s and isothermally with millisecond time resolution (Poster). 
  e-Polymers (2003), no. P_001.
  Minakov, A.; Adamovsky, S.; Schick, C. (University of Rostock).
  

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