The key advantage of a relational database is the ability to relate and index information. Most 'NoSQL' systems don't provide a relational algebra or a great query language.
What you need to ask yourself is, does switching make sense for my intended use case?
You have kind of missed the point. The point is, you sometimes don't have an index (in the way you do with a general relational DB anyways). Even when you do have an index, the ability to relate it together is difficult and what relational databases excel at. NoSQL solutions have a number of novel structure which make many usecases trivially easy, e.g. Redis is a data-structure oriented DB well-suited to rapidly building anything with queues or its pub-sub architecture. MongoDB is a freeform document database which stores documents as JSON (BSON) and excels at rapid development. BigTable solutions are a little less structured that that but expand the idea of a row to have families of columns — key value pairs contained in each row arranged efficiently on disk. You can build an inverted index on top of this with a technology like ElasticSearch.
Not everything need the consistency guarantees or disk layout of a traditional RDBMS. Another major usecase of NoSQL is massive scale, many solutions (e.g. BigTable -- HBase/Cassandra) are designed to shard and scale horizontally easily (not so easy with SQL!). Cassandra in particular is designed for no SPOF. Further, column-oriented datastores are meant to optimize disk speeds via sequential reads (and reduce write-amplification). That being said, unless you really need it, a traditional SQL server is generally good enough.
There's advantages and disadvantages. Personally, I use a mix of both. Use the right tool for the right job but that may end up being PostgreSQL or MySQL more often than not.
You can liken a basic key-value system to making an SQL table with two columns, a unique key and a value. This is quite fast. You have no need to do any relations or correlations or collation of data. Just find the value and return it. This is an oversimplification, NoSQL databases do have a lot of interesting functionality and application beyond simple K,V stores.
I do not think scientific data is well suited to most nosql implementations, but if you look at HBase or Cassandra, it may well suit a scientist's needs (with proper rowkey design -- timestamp must not be first, check out OpenTSDB). I know of many companies that store sensor readings in Cassandra by using a random-order partitioner and the UUID of the sensor to roll up readings into daily fat rows.