Sanjeev Kumar
London Centre for Nanotechnology
76 Papers
800 Citations
Sanjeev Kumar is an academic researcher from London Centre for Nanotechnology. The author has contributed to research in topics: Electron & Quantum wire. The author has an hindex of 19, co-authored 72 publications. Previous affiliations of Sanjeev Kumar include University College London & University of Delhi.
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Papers
Patients' perspective of haemodialysis-associated symptoms
TL;DR: Despite advances in HD, intradialytic symptoms were frequently reported by patients, and there was substantial unexplained variation in symptom burden across centres, suggesting that clinical practice or policies may play a role in preventing the adverse effects of dialysis.
Molecular cloning and expression of the Fabs of human autoantibodies in Escherichia coli. Determination of the heavy or light chain contribution to the anti-DNA/-cardiolipin activity of the Fab.
Sanjeev Kumar,Jatinderpal Kalsi,C. T. Ravirajan,Anisur Rahman,Dee Athwal,David S. Latchman,David A. Isenberg,Laurence H. Pearl +7 more
TL;DR: The comparative DNA/cardiolipin binding analyses of the nine Fabs revealed that the anti-DNA (light, B3/33H11) or anti-cardiolIPin (heavy, UK4) activity lies predominantly on one of the two chains, however, a compatible partner chain is necessary for optimum antigen binding activity of the antibody.
172
Cross‐reactivity between anti‐cardiolipin, anti‐high‐density lipoprotein and anti‐apolipoprotein A‐I IgG antibodies in patients with systemic lupus erythematosus and primary antiphospholipid syndrome
TL;DR: The study of the interaction between the immune response and the lipoprotein components and the correct characterization of the reactivity patterns of autoantibodies may be of relevance in the study of atherosclerosis in patients with SLE and APS.
Synthesis of photoconducting ZnO nano-needles using an unbalanced magnetron sputtered ZnO/Zn/ZnO multilayer structure
TL;DR: In this article, the synthesis of ZnO nano-needles using unbalanced magnetron sputtering is reported, where a multilayer structure comprised of znO(50 nm)/Zn(20 nm)/znO (2 µm) was grown on a stainless steel substrate without substrate heating.
97
Biologically inspired evolutionary development
Sanjeev Kumar,Peter J. Bentley +1 more
- 17 Mar 2003
TL;DR: The Evolutionary Developmental System is an object-oriented model comprising proteins, genes and cells that permits intricate genomic regulatory networks to form and can evolve spherical embryos constructed from balls of cells.