Author Index Volume 4 (2015)

Ausili, A., M. Sánchez and J.C. Gómez-Fernández, Attenuated total reflectance infrared spectroscopy: A powerful method for the simultaneous study of structure and spatial orientation of lipids and membrane proteins (2) 159–170

Barron, L.D., Review: The development of biomolecular Raman optical activity spectroscopy (3) 223–253

Beleites, C., O. Guntinas-Lichius, G. Ernst, J. Popp and C. Krafft, FTIR microscopic imaging of carcinoma tissue section with 4× and 15× objectives: Practical considerations (1) 57– 66

Bjällmark, A., see Härmark, J. (1) 81– 93

Brodin, L.-Å., see Härmark, J. (1) 81– 93

Buimaga-Iarinca, L., see Tripon, C. (2) 189–196

Caidahl, K., see Härmark, J. (1) 81– 93

Calborean, A., see Tripon, C. (2) 189–196

Chang, H.-H., see Cheng, C.-L. (1) 67– 79

Chau, J.K., see Mickiewicz, B. (4) 359–371

Chen, J.-B., see Xu, C.-H. (2) 139–158

Chen, T.-H., see Cheng, C.-L. (1) 67– 79

Cheng, C.-L., H.-H. Chang, T.-H. Chen, P.-J. Tsai, S.-C. Ko, Y.-T. Chu, P.-J. Huang and S.-Y. Lin, Diagnosis and clinical characteristics of acute gallbladder sludge in a patient with acute myocarditis and acute cholecystitis, as compared with common chronic gallstones (1) 67– 79

Chu, Y.-T., see Cheng, C.-L. (1) 67– 79

Coulthard, E., see Wood, B. (2) 197–208

Couthard, E., see Knight, M.J. (3) 299–310

Dezhampanah, H. and E. Shamsi, Spectrophotometric investigation of the interactions between cationic porphyrazine and different anionic surfactants (2) 209–218

Divakar Rao, K., N.K. Sahoo and C.M. Krishna, Review: Perspectives of optical coherence tomography imaging and Raman spectroscopy in cancer diagnosis (1) 35– 55

Ernst, G., see Beleites, C. (1) 57– 66

Frank, C.B., see Mickiewicz, B. (4) 359–371

Gao, Y., D. Li, J.-j. Shi, X. Wang, T. Kang, S. Weng, Y. Xu, I. Noda and J. Wu, Coordinationbetween lanthanide (III) ions and organic ligands of natural pharmaceutical containing lactone group probed by DAOSD approach (2) 129–137

Ge, X., L. Sun, L. Shi and R. Wei, Review: The modified upconversion nanomaterials (UCNMs) for multimodal imaging and therapies (4) 391–412

Gekko, K., see Matsuo, K. (3) 269–282

Gómez-Fernández, J.C., see Ausili, A. (2) 159–170

Guntinas-Lichius, O., see Beleites, C. (1) 57– 66

Haris, P.I., Editorial: Henry Horst Mantsch – A visionary biomedical spectroscopist and a true interdisciplinary professional (4) 311–314

Haris, P.I., Editorial: Laurence Barron: The founding father of Raman optical activity (3) 219–222

Haris, P.I., Robert W. Woody – A pioneer of protein circular dichroism spectroscopy (1) 1– 3

Härmark, J., M.K. Larsson, A. Razuvajev, P.J.B. Koeck, G. Paradossi, L.-Å. Brodin, K. Caidahl, H. Hebert and A. Bjällmark, Investigation of the elimination process of a multimodal polymer-shelled contrast agent in rats using ultrasound and transmission electron microscopy (1) 81– 93

Hart, D.A., see Mickiewicz, B. (4) 359–371

Hebert, H., see Härmark, J. (1) 81– 93

Huang, P.-J., see Cheng, C.-L. (1) 67– 79

Huebner, K.D., see Mickiewicz, B. (4) 359–371

Kang, T., see Gao, Y. (2) 129–137

Kauppinen, R., see Knight, M.J. (3) 299–310

Kauppinen, R.A., see Wood, B. (2) 197–208

Knight, M.J., B. Wood, E. Couthard and R. Kauppinen, Anisotropy of spin-echo T2 relaxation by magnetic resonance imaging in the human brain in vivo (3) 299–310

Knight, M.J., see Wood, B. (2) 197–208

Ko, S.-C., see Cheng, C.-L. (1) 67– 79

Koeck, P.J.B., see Härmark, J. (1) 81– 93

Krafft, C., see Beleites, C. (1) 57– 66

Krishna, C.M., see Divakar Rao, K. (1) 35– 55

Larsson, M.K., see Härmark, J. (1) 81– 93

Li, D., see Gao, Y. (2) 129–137

Lin, S.-Y., see Cheng, C.-L. (1) 67– 79

Luber, S., Review: Exploring Raman optical activity for transition metals: From coordination compounds to solids (3) 255–268

Macnab, A.J., B. Shadgan, B. Molavi and L. Stothers, Transcutaneous NIRS of the bladder: Optimal photon migration in pigmented subjects (3) 283–297

Mantsch, H.H., Review: The evolution of biomedical vibrational spectroscopy: A personal perspective (4) 315–329

Matsuo, K., H. Namatame, M. Taniguchi and K. Gekko, Solution structures of methyl aldopyranosides revealed by vacuum-ultraviolet electronic circular-dichroism spectroscopy (3) 269–282

Mickiewicz, B., K.D. Huebner, J.K. Chau, N.G. Shrive, C.B. Frank, H.J. Vogel and D.A. Hart, Metabolic profile of plasma before and after induction of an isolated intra-articular bone injury in the rabbit knee: Potential to characterize the onset of osteoarthritis? (4) 359–371

Molavi, B., see Macnab, A.J. (3) 283–297

Motwani, P., see Qi, J. (1) 95–103

Muntean, C.M., see Tripon, C. (2) 189–196

Murali Krishna, C., see Sahu, A. (2) 171–187

Namatame, H., see Matsuo, K. (3) 269–282

Noda, I., Techniques of two-dimensional (2D) correlation spectroscopy useful in life science research (2) 109–127

Noda, I., see Gao, Y. (2) 129–137

Oldenhof, H., see Wolkers, W.F. (4) 331–340

Oliver, R., see Wood, B. (2) 197–208

Paradossi, G., see Härmark, J. (1) 81– 93

Park, J.H. and G. Yoon, Determination of ulcer in the digestive tract using image analysis in wireless capsule endoscopy (4) 373–390

Popp, J., see Beleites, C. (1) 57– 66

Qi, J., P. Motwani, J. Zeng, J.C. Wolfe and W.-C. Shih, Morphological, plasmonic and SERS characterization of DC-sputtered gold nanoislands (1) 95–103

Razuvajev, A., see Härmark, J. (1) 81– 93

Sahoo, N.K., see Divakar Rao, K. (1) 35– 55

Sahu, A., S. Sawant, S. Talathi-Desai and C. Murali Krishna, Raman spectroscopy of serum: A study on oral cancers (2) 171–187

Sánchez, M., see Ausili, A. (2) 159–170

Sawant, S., see Sahu, A. (2) 171–187

Severcan, F., see Sevinc, A. (4) 341–357

Sevinc, A., D. Yonar and F. Severcan, Investigation of neurodegenerative diseases from body fluid samples using Fourier transform infrared spectroscopy (4) 341–357

Shadgan, B., see Macnab, A.J. (3) 283–297

Shamsi, E., see Dezhampanah, H. (2) 209–218

Shi, J.-j., see Gao, Y. (2) 129–137

Shi, L., see Ge, X. (4) 391–412

Shih, W.-C., see Qi, J. (1) 95–103

Shrive, N.G., see Mickiewicz, B. (4) 359–371

Stothers, L., see Macnab, A.J. (3) 283–297

Sun, L., see Ge, X. (4) 391–412

Sun, S.-Q., see Xu, C.-H. (2) 139–158

Talathi-Desai, S., see Sahu, A. (2) 171–187

Taniguchi, M., see Matsuo, K. (3) 269–282

Tripon, C., C.M. Muntean, L. Buimaga-Iarinca and A. Calborean, DFT investigation of the vibrational properties of AT base pairs in the presence of Ca²⁺ and Mn²⁺ ions (2) 189–196

Tsai, P.-J., see Cheng, C.-L. (1) 67– 79

Tsivos, D., see Wood, B. (2) 197–208

Vogel, H.J., see Mickiewicz, B. (4) 359–371

Wang, X., see Gao, Y. (2) 129–137

Wei, R., see Ge, X. (4) 391–412

Weng, S., see Gao, Y. (2) 129–137

Wolfe, J.C., see Qi, J. (1) 95–103

Wolkers, W.F. and H. Oldenhof, Biomolecular fingerprinting in the dried state (4) 331–340

Wood, B., M.J. Knight, D. Tsivos, R. Oliver, E. Coulthard and R.A. Kauppinen, Magnetic resonance scanning and image segmentation procedure at 3 T for volumetry of human hippocampal subfields (2) 197–208

Wood, B., see Knight, M.J. (3) 299–310

Woody, R.W., Review: The development and current state of protein circular dichroism (1) 5– 34

Wu, J., see Gao, Y. (2) 129–137

Xu, C.-H., J.-B. Chen, Q. Zhou and S.-Q. Sun, Classification and identification of TCM by macro-interpretation based on FT-IR combined with 2DCOS-IR (2) 139–158

Xu, Y., Guest editorial: Isao Noda – Father of two-dimensional correlation spectroscopy (2) 105–107

Xu, Y., see Gao, Y. (2) 129–137

Yonar, D., see Sevinc, A. (4) 341–357

Yoon, G., see Park, J.H. (4) 373–390

Zeng, J., see Qi, J. (1) 95–103

Zhou, Q., see Xu, C.-H. (2) 139–158